15 TFT LCD Colour Monitor”

Frequências Horizontal30 - 61 kHz

ServiceService

Impresso no Brasil Sujeito a modificações Todos os direitos reservados 4806 727 17289

HUDSON4 150S5

150S5FG/00150S5FB/00

09/2004

Conteúdo P á g i n a

Notas de Segurança..........................................................2Especificações Técnicas......................................................................3Precauções de Segurança...............................................................4Manuseando Componentes SMD............................................................5Aviso e Notas.....................................................................6Ins ta lação . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7Diagrama de Ligações...............................................................8Instruções Mecânicas.........................................................9Instruções Elétricas.............................................................11Instruções DDC..................................................................13Troubleshooting.......................................................................19Diagrama em Blocos..........................................................23Esquema Elétrico Painel Scaler.......................................................24Layout Painel Scaler............................................................................28Painel Controle.....................................................................30Esquema Elétrico Inversor..............................................................31Painel Adaptador..................................................................32Vista Explodida...............................................................33

çVolta ao Menu

3150S5FG2 150S5FG 3150S5FG2 150S5FG

NOTAS DE SEGURANÇA

A manutenção adequada é importante para segurança e confiabili-dade de todos os produtos Phillips. Os procedimentos de manutenção recomendados pela Phillips e descritos neste manual de serviço são métodos de operação de manutenção.

Alguns desses métodos requerem o uso de ferramentas especial-mente designadas para este fim. Estas ferramentas especiais devem ser usadas quando recomendadas.

É importante notar que este manual contém várias observações de precauções e notas de segurança que devem ser lidas cuidadosa-mente a fim de minimizar o risco para o técnico. Há possibilidade de que métodos não adequados de serviço podem danificar o equipa-mento. É também importante entender que estas observações não são definitivas. A Phillips não tem como avaliar ou aconselhar os métodos de serviço de cada um e suas possíveis conseqüência.

Conseqüentemente a Phillips não se compromete a qualquer avalia-ção. O técnico que usar os procedimentos de serviço ou ferramentas não recomendadas pela Phillips deve estar ciente que este não é o método recomendado e seguro e que corre risco ao usá-los.

CUIDADO

Componentes críticos que tem características especiais de segurança são identificados com o símbolo I e delimitados com uma linha tracejada * (quando vários componentes críticos são agrupados em uma área), também são identificados com este símbolo nos esquemas elétricos e vistas explodidas.

O uso de substitutos que não possuem as mesmas características de segurança especificadas podem causar choque, fogo e outros danos.

Sob nenhuma circunstância o projeto deve ser modificado sem permis-são por escrito da Phillips.

A Philips não assume qualquer responsabilidade por modificações não autorizadas.

O serviço autorizado assumirá total responsabilidade.

PARA PRODUTOS COM LASER:

Radiação laser invisivel quando aberto.EVITE EXPOSIÇÃO DIRETA AO RAIO.

O uso de controles, ajustes ou realizaçãode procedimentos outros que não osdescritos aqui, podem resultar emperigosa exposição à radiação.

O uso de instrumentos ópticos com esteproduto aumentará o perigo de danosaos olhos.

PERIGO-

CUIDADO-

CUIDADO-

PARA ASSEGURAR A CONTÍNUA CONFIABILIDADEDESTE PRODUTO, USE APENAS COMPONENTESORIGINAIS QUE ESTÃO LISTADOS NA LISTA DEMATERIAIS DE REPOSIÇÃO DESTE MANUAL.

* Linha Tracejada

Tome cuidado durante a manipulação do módulo do LCD com unidade de backlight

- Deve-se montar o módulo usando os furos de montagem localiza-dos nos quatro cantos.

- Não pressione o painel, cantos duros ou choque elétrico podem resultar em danos à tela.

- Não risque nem pressione o painel com nenhum objeto afiado, tais como lápis ou caneta pois isto pode resultar em danos ao painel.

- Proteja o módulo de ESD que pode danificar o circuito eletrônico (C-MOS).

- Assegure que o corpo dos técnicos esteja aterrado através de pulseiras anti-estáticas.

- Não deixe o módulo em altas temperaturas e em áreas com umi-dade elevada por muito tempo.

- Evite o contato com água que pode provocar um curto-circuito dentro do módulo.

- Se a superfície do painel sujar, limpe-a com um material macio. (a limpeza com um pano sujo ou áspero pode danificar o painel.)

3150S5FG2 150S5FG 3150S5FG2 150S5FG

ESPECIFICAÇÕES TÉCNICAS

Painel LCDTipo de Tela : Matriz Ativa LG - TFT LCDDimensões da Tela : 15 polegadas (diagonal)Área do display horizontal : 304,1 mm vertical : 228,1 mmPixel pitch : 0,297 x 0,297 mmÂngulo (CR>=10) : Vertical 90 graus Horizontal 120 graus - tipíco.Cores do Display : 6 bits interface (16M cores)

VarreduraFaixa de varredura horizontal : 30kHz - 61kHz (automático)Faixa de varredura vertical : 56 Kz - 76 Hz (automático)Melhor resolução : 1024 x 768 em 60HzMáxima resolução : 1024 v 768 em 75 Hz

VídeoTaxa de pontos de vídeo : 79MHzImpedância de entrada -vídeo : 75 ohms -sincronismo : 5K6 ohmNível de sinal de entrada : 700m VppEntrada de sinais de sincronização : horizontal e vertical separados/ composto; nível TTL, positivo ou negativo, sincronismo no verdeFrequência de entrada : XGA Hsync 48-61 Khz, Vsync 60-76Hz (N.I.) SVGA Hsync 35-50KHz,Vsync 56-75Hz (N.I.) VGA Hsync 31-38 KHz, Vsync 60-76Hz (N.I.)

Função dos pinos:

Nº pino Sinal1 Vermelho2 Verde/SOG3 Azul4 sensor(GND)5 Teste(GND)6 Vermelho GND7 Verde GND8 Azul GND9 +5V

10 Sync GND11 Sensor (GND)12 Serial data (SDA)13 H/H+V sync14 V-sync15 Data clock (SCL)

Modos de preset de fábrica(* 140 modos)Resolução

STATUSH-sync

V-sync

Video Power LED/Remark

On On On Active <20 WGreen /WithoutAudio

Stand-by Off On Blanked <1W Amber

Suspend On Off Blanked <1W Amber

Off Off Off Blanked <1W AmberDC Poweroff

N / A <1W LED Off

Modo Resolução H. freq. / V. freq Standard

Interface de vídeo : entrada dual: ambas analog (D-Sub) e DVI-I (apenas digital) são disponíveis pode ser chaveado via seleção OSDResolução e Modo Preset Máximo : 1024 x 768 em 75HzRecomendado : 1024 x 768 em 60Hz

Características FisícasDimensões Altura : 343 mm Profundidade : 176 mm Largura : 358 mmPeso (apenas monitor) : 4,81kg

Ângulo de giro e inclinaçãodo pedestal : + - 175º

Faixa de ajuste de altura : 50mmDisplay portátil : rotação de 90º em sentido horárioFrente / Trás : -5º / 25º

Entrada de tensão AC/frequência : 90 - 264 VAC / 50 ou 60 HzConsumo de Potência : 23W (típico)

Condições de operação Temperatura : 5°C a 40 °C (41F - 104F)Umidade relativa : 20% - 80%Sistema MTBF : 50K Hrs (CCFL 40 Khrs)

Função dos pinos:

Nº pino Sinal1 Vermelho2 Verde/SOG3 Azul4 sensor(GND)5 Teste(GND)6 Vermelho GND7 Verde GND8 Azul GND9 +5V

10 Sync GND11 Sensor (GND)12 Serial data (SDA)13 H/H+V sync14 V-sync15 Data clock (SCL)

Modos de preset de fábrica(* 140 modos)Resolução

STATUSH-sync

V-sync

Video Power LED/Remark

On On On Active <20 WGreen /WithoutAudio

Stand-by Off On Blanked <1W Amber

Suspend On Off Blanked <1W Amber

Off Off Off Blanked <1W AmberDC Poweroff

N / A <1W LED Off

Modo Resolução H. freq. / V. freq Standard

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devem ser trocados por quaisquer outros tipos, pois isto pode resultar em radiação X excessiva.

7. É essencial usar o tubo de imagem especificado para evitar um possível problema de radiação X.

8. A Maioria dos receptores de TV contêm algum tipo de circuito de segurança para prevenir excessos de alta tensão durante uma falha. Esses vários circuitos devem ser compreendidos por todos os técnicos que fazem a manutenção, especialmente os circuitos que não atuam enquanto o aparelho opera normalmente.

Verificação a frio do vazamento de corrente 1. Desconecte o cabo de força AC e conecte um jumper entre o dois pinos do plug.2. Ligue a chave power.3. Meça o valor da resistência entre o cabo AC e todas as partes metálicas expostas

do gabinete do aparelho, tal como cabeças de parafuso, antenas, e eixos dos contro-les. Quando a parte metálica exposta tem um retorno para o chassis, a leitura deve ser entre 1 megohm e 5.2 megohms.

Quando a parte de metal exposta não tem um retorno para chassis, a leitura deve ser infinita. Remova o o jumper do cabo de força AC.

Verificação a quente do vazamento de corrente 1. Não use um transformador de isolação para este teste. Ligue o aparelho, completa-

mente montado, diretamente à tomada de força.2. Conecte um resistor de 1.5k, 10W em paralelo com um capacitor de 0.15uF entre

cada parte metálica exposta do gabinete e um bom ponto de terra, tal como um cano de água, como mostrado acima.

3. Use um voltímetro AC com pelo menos 5000ohms/volt de sensibilidade para medir o potencial através do resistor.

4. O potencial em qualquer ponto não deve exceder 0.75 volts. Um analisador de vazamento de corrente pode ser utilizado para fazer este teste; o vazamento de corrente não deve exceder 0.5 mA. Se uma medida está fora dos limites especifi-cados, há uma possibilidade de perigo de choque. O aparelho deve ser reparado e verificado novamente antes de retornar ao cliente.

5. Repita o procedimento acima com a tomada AC invertida. ( Nota: Um adaptador AC é necessário quando uma tomada polarizada é utilizada. Não retire o recurso de polarização do plug.)

Reposição do Tubo de Imagem A fonte primária de radiação X neste tipo de aparelho é o tubo de imagem. O tubo

de imagem utilizado neste chassis é especialmente construido para limitar a emissão de radiação X. Para continuar com a proteção de radiação X, o tubo de reposição deve ser do mesmo tipo do original, incluindo a letra de sufixo, ou um tipo apro-vado pela Philips.

Peças de Reposição Muitas partes mecânicas e elétricas em conjuntos de televisão da Philips têm carac-

terísticas especiais de segurança. Essas características não estão frequentemente evidentes em uma inspeção visual e nem podem ser obtidas utilizando compo-nentes com tolerâncias mais altas de voltagem, potência e etc. O uso de uma peça substituta que não tem a mesma característica de segurança que a recomendada pela Philips neste manual de serviço pode causar choque, fogo, ou outros perigos.

1500 ohm, 10W

0.15 uFPara umaparteMetálicaExposta nosInstrumentos

Para um CanoD' Água Metálicoou PontoAterrado

Verificação de Segurança Após o problema original do aparelho ter sido corrigido, uma verificação de segurança completa deve ser feita. Certifique-se de verificar o conjunto inteiro, não somente as áreas onde você trabalhou. Algum serviço anterior pode ter deixado uma condição insegura, que pode não ter sido percebida pelo cliente. Certifique-se de verificar os

seguintes itens:

Perigo de incêndio e choque1. Tenha certeza que todos os componentes estão posicionados de tal forma a evitar

a possibilidade de curto-circuito com o componente adjacente. Isto é especialmente importante naqueles aparelhos que são transportados para o serviço autorizado.

2. Nunca libere uma unidade reparada a menos que todos dispositivos de proteção, tal como, isoladores, tampas, alívios de esforço, e outro hardware estejam instalados em conformidade com o projeto original.

3. As soldas e as ligações devem ser inspecionadas para localizar possíveis soldas frias, corrosões, pontos de solda muito finos, mau contatos, conectores soltos ou isolação danificada (incluindo a do cabo AC). Certifique-se de retirar respingos de solda e todas outras partículas estranhas soltas.

4. Verifique as trilhas dos componentes e outros componentes para ver se não existe dano físico ou deterioração e troque o componente se necessário. Siga o layout original, comprimento dos terminais, e montagem.

5. Nenhum terminal ou componente deve tocar o tubo ou os resistores de 1 watt ou mais. Evite encostar os terminais ou componentes em superfícies metálicas.

6. Componentes críticos que tem características de segurança especiais são identifica-dos com um símbolo na lista de material e no esquema através de uma linha trace-jada (onde vários componentes críticos estão agrupado em uma área) junto com os símbolos de segurança nos diagramas esquemáticos e/ou nas vistas explodidas.

7. Quando estiver fazendo a manutenção em qualquer unidade, sempre use um trans-formador de isolação para o chassi. A falta de um transformador de isolação pode expor você ao perigo de choque e pode causar danos aos instrumentos de serviço.

8. Muitos produtos eletrônicos usam cabo de força AC polarizado (um pino mais largo no plug.) Eliminar este recurso de segurança pode criar um perigo potencial para o serviço e o usuário. Cabos de força que não incorporam o recurso da polarização não podem ser utilizados.

9. Depois de montar a unidade, sempre faça um teste de fuga de corrente ou teste de resistência do cabo de força para todos os pontos de metal expostos do gabinete. Verifique também todos os eixos de metal dos controles (removendo os knobs), terminais de antena, cabos, parafusos, etc. Para ter certeza que a unidade pode ser operada em segurança sem perigo de choque elétrico.

Implosão1. Todos os tubos de imagem utilizados nos modelos atuais são equipados com um

sistema de implosão integral. Preste sempre muita atenção e utilize sempre óculos de segurança quando estiver fazendo a manutenção de qualquer tubo de imagem. Evite arranhar ou danificar o tubo de imagem durante a instalação.

2. Use unicamente tubos de reposição especificados pelo fabricante.

Radiação X1. Tenha certeza que os procedimentos e instruções distribuídos a seu pessoal téc-

nico, falem sobre radiação X. As fontes potenciais de raios X nos receptores de TV são o tubo de imagem e os circuitos de alta tensão. A precaução básica é deixar a área de alta tensão, no nível especificado pela fábrica.

2. Para evitar uma possível exposição à radiação X e a choque elétrico, devem ser usados unicamente os conectores de anodo do tubo, fornecidos pela fábrica.

3. É essencial que o técnico de serviço tenha um medidor de alta tensão preciso, disponível a qualquer momento. A calibragem deste medidor deve ser verificada periodicamente com um padrão de referência.

4. Quando o circuito de alta tensão está operando apropriadamente, não há possibilidade de problema de radiação X. A alta tensão deve estar sempre dentro dos padrões especificados pelo fabricante para uma performance ótima. Toda vez que um aparelho em cores está sendo analisado, o brilho deve ser aumentado e abaixado enquanto se monitora a alta tensão com um medidor, para ter certeza que a alta tensão está ajustada corretamente e que não excede o valor especificado. Nós sugerimos que você e seus técnicos revejam procedimentos de teste de alta tensão de modo que a regulagem de alta tensão seja sempre verificada como um procedimento de serviço padrão, e a razão para esta rotina prudente é compreen-dida claramente por todos. É importante usar um medidor de alta tensão preciso e confiável. É recomendado que o registro de alta tensão seja anexado a fatura do cliente, o que demonstrará um procedimento apropriado à segurança do cliente.

5. Quando estiver verificando a árvore de defeitos e fazendo medições de teste em um receptor com problemas de alta tensão excessiva, reduza a tensão da rede por meio de um Variac para trazer a alta tensão para dentro dos limites aceitáveis enquanto você faz o diagnóstico. Não deixe o chassi ligado mais do que o necessá-rio para localizar a causa da alta tensão excessiva.

6. Os novos tubos de imagem são especificamente projetados para suportar excesso de alta tensão sem criar radiação X indesejável. É fortemente recomendado que os testes no serviço autorizado sejam feitos com um dos novos tipo de tubos projetado para este serviço. A conexão permanente de um medidor de alta tensão é também recomendada. Os tipos de CRT utilizados nestes novos conjuntos nunca

PRECAUÇÕES DE SEGURANÇA PARA SERVIÇOS TÉCNICOS EM TELEVISORES E MONITORES

5150S5FG4 150S5FG 5150S5FG4 150S5FG

MANUSEANDO COMPONENTES SMD

Geral

ComponenteSMDSolda Solda

Trilha de Cobre

ColaP.C.I.

Retirando

Sugador à VácuoFerro de Solda

Ferro de Solda

Malhapara

Dessolda

A

Pinça

AquecerAquecer B

Ferro de Solda

Malhapara

Dessolda

LimparC

Precauções

Ferro de Solda

Correto

Trilha de Cobre

Ferro de Solda

Componente

Pacote de Serviço

Ferro de Solda

Correto

Exemplos

Não!

Pressão

Solda0,5 ~ 0,8mm

Ferrode

Solda

B

Pressão

Solda0,5 ~ 0,8mm

Ferrode

Solda

Tempo de Solda< 3seg./lado

Colocando

A

Pinça

Atenção!

Normas de segurança requerem que todos os ajustes sejam realizados para as condições normais e todos os componentes de reposição devem atender as especificações.

Advertência!

Todos os CI`s e vários outros semicondutores são suscetíveis à descargas eletrostáticas (ESD).

A falta de cuidados no manuseio pode reduzir drasticamente a vida do componente.

Quando estiver reparando, certifique-se de estar conectado ao mesmo potencial de terra através de uma pulseira de aterramento com resistência.

Mantenha componentes e ferramentas também neste potencial.

Teste de risco de choque e incêndio

CUIDADO: Após reparar este aparelho e antes de devolve-lo ao consu-midor, meça a resistência entre cada pino do cabo de força (desconectado da tomada e com a chave Power ligada) e a face do painel frontal, botões de controle e a base do chassis.

Qualquer valor de resistência menor que 1 Megohms indica que o aparelho deve ser verificado /reparado antes de ser conectado à rede elétrica e verifi-cado antes de retornar ao consumidor.

NOTA DE SEGURANÇA:

Risco de choque ou incêndio. Componentes marcados com o símbolo ao lado devem ser substituídos apenas por originais. A utilização de componen-tes não originais pode acarretar risco de incêndio ou choque elétrico.

ESD

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Economia de Energia Automática

Se você possui uma placa de vídeo compatível com VESA’s DPMS ou software instalado em seu PC, o monitor pode automaticamente reduzir o consumo de energia quando a função (Power Saving) estiver ativa. E se qualquer tecla for acionada ou o mouse for acionado o monitor irá automaticamente voltar a operação normal. A tabela a seguir mostra o consumo de potência no modo de economia automá-tica.

STATUS H-sync V-sync Vídeo Potência Cor LEDLigado Sim Sim Ativo <20W Verde/

sem áudio

Stand-by Não Sim Apagado <1W ÂmbarSuspenso Sim Não Apagado <1W ÂmbarDesligado Não Não Apagado <1W ÂmbarPower DCdesligado

N/A <1W LED des-ligado

Modo Resolução Freq. H / Freq. V Padrão

1. 640 x 350 31.469Khz/70.087Hz VGA

2. 720 x 400 31.469Khz/70.087Hz VGA

3. 640 x 480 31.469Khz/59.940Hz VGA

4. 640 x 480 35.000Khz/66.667Hz Macintosh

5. 640 x 480 37.861Khz/72.809Hz VESA

6. 640 x 480 37.500Khz/75.000Hz VESA

7. 800 x 600 35.156Khz/56.250Hz VESA

8. 800 x 600 37.879Khz/60.317Hz VESA

9. 800 x 600 48.077Khz/72.188Hz VESA

10. 800 x 600 46.875Khz/75.000Hz VESA

11. 832 x 624 49.700Khz/75.000Hz Macintosh

12. 1024 x 768 48.363Khz/60.004Hz VESA

13. 1024 x 768 56.476Khz/70.069Hz VESA

14. 1024 x 768 60.023Khz/75.029Hz VESA

Armazenamento de DadosModos pré ajustados de fabrica

Este monitor tem 14 modos pré-ajustados de fabrica como indicado natabela seguinte:

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Conectanto seu monitor1) Conecte o cabo de força no monitor firmemente.

2) Prenda o cabo de força e o cabo de sinal juntos.

Nota: Se você usa um Apple Macintos, é necessário conectar um adaptador especial Mac no cabo de sinal do monitor.

3) Conectando ao PC1) Desligue o computador e o cabo de força.2) Conecte o cabo de sinal do monitor na parte de trás do seu com-

putador.3) Ligue o cabo de força do computador e do monitor em uma

tomada próxima.4) Ligue o computador e o monitor. Se aparecer a imagem a instalação estará completa.

INSTALAÇÃO

Descrição da Vista Frontal do Produto

as teclas UP e DOWN são usadas para ajuste do OSD do seu monitor.

as teclas LEFT e RIGHT , como as teclas UP e DOWN, são também usadas para ajuste do OSD do seu monitor.

Tecla BRIGHTNESSS. Quando as teclas UP e DOWN são pressionadas, os controles de ajuste para BRILHO aparecem.

Tecla OK quando pressionada apresenta o menu OSD.

Tecla POWER liga seu monitor.

Ajuste automático das posições horizontal e vertical, fase e temporização.

Vista traseira

1- Trava anti-furto2- Entrada VGA3- Entrada de cabo de força

190P5

Connecting your monitor

1)

2)

Note:

3)

(a)

(b)

(c)

(d)

Plug the power cord into monitor Firmly.

Clip the power cord and signal cable together for cable

Management

If you use an Apple Macintosh, you need to connect thespecial Mac adapter to one end of the monitor signal cable.

Connect to PC

Turn off your computer and unplug its power cable.

Connect the monitor signal cable to the video connector onthe back of your computer.

Plug the power cord of your computer and your monitor intoa nearby outlet.

Turn on your computer and monitor. If the monitor displaysAn image, installation is complete.

1 Kensington anti-thief lock

2 VGA input

3 AC power input

150S5

Go to cover page

4 Installation

Front View Product Description

Rear View

UP and DOWN buttons are used whenadjusting the OSD of your monitor.

LEFT and RIGHT buttons, like the UP andDOWN buttons, are also used in adjusting theOSD of your monitor.

BRIGHTNESS hotkey. When the UP andDOWN arrow buttons are pressed, theadjustment controls for the BRIGHTNESS willshow up.

OK button which when pressed will take youto the OSD controls.

POWER button switches your monitor on.

Automatically adjust the horizontal position,vertical position, phase and clock setting.

190P5

Connecting your monitor

1)

2)

Note:

3)

(a)

(b)

(c)

(d)

Plug the power cord into monitor Firmly.

Clip the power cord and signal cable together for cable

Management

If you use an Apple Macintosh, you need to connect thespecial Mac adapter to one end of the monitor signal cable.

Connect to PC

Turn off your computer and unplug its power cable.

Connect the monitor signal cable to the video connector onthe back of your computer.

Plug the power cord of your computer and your monitor intoa nearby outlet.

Turn on your computer and monitor. If the monitor displaysAn image, installation is complete.

1 Kensington anti-thief lock

2 VGA input

3 AC power input

150S5

Go to cover page

4 Installation

Front View Product Description

Rear View

UP and DOWN buttons are used whenadjusting the OSD of your monitor.

LEFT and RIGHT buttons, like the UP andDOWN buttons, are also used in adjusting theOSD of your monitor.

BRIGHTNESS hotkey. When the UP andDOWN arrow buttons are pressed, theadjustment controls for the BRIGHTNESS willshow up.

OK button which when pressed will take youto the OSD controls.

POWER button switches your monitor on.

Automatically adjust the horizontal position,vertical position, phase and clock setting.

190P5

Connecting your monitor

1)

2)

Note:

3)

(a)

(b)

(c)

(d)

Plug the power cord into monitor Firmly.

Clip the power cord and signal cable together for cable

Management

If you use an Apple Macintosh, you need to connect thespecial Mac adapter to one end of the monitor signal cable.

Connect to PC

Turn off your computer and unplug its power cable.

Connect the monitor signal cable to the video connector onthe back of your computer.

Plug the power cord of your computer and your monitor intoa nearby outlet.

Turn on your computer and monitor. If the monitor displaysAn image, installation is complete.

1 Kensington anti-thief lock

2 VGA input

3 AC power input

150S5

Go to cover page

4 Installation

Front View Product Description

Rear View

UP and DOWN buttons are used whenadjusting the OSD of your monitor.

LEFT and RIGHT buttons, like the UP andDOWN buttons, are also used in adjusting theOSD of your monitor.

BRIGHTNESS hotkey. When the UP andDOWN arrow buttons are pressed, theadjustment controls for the BRIGHTNESS willshow up.

OK button which when pressed will take youto the OSD controls.

POWER button switches your monitor on.

Automatically adjust the horizontal position,vertical position, phase and clock setting.

190P5

Connecting your monitor

1)

2)

Note:

3)

(a)

(b)

(c)

(d)

Plug the power cord into monitor Firmly.

Clip the power cord and signal cable together for cable

Management

If you use an Apple Macintosh, you need to connect thespecial Mac adapter to one end of the monitor signal cable.

Connect to PC

Turn off your computer and unplug its power cable.

Connect the monitor signal cable to the video connector onthe back of your computer.

Plug the power cord of your computer and your monitor intoa nearby outlet.

Turn on your computer and monitor. If the monitor displaysAn image, installation is complete.

1 Kensington anti-thief lock

2 VGA input

3 AC power input

150S5

Go to cover page

4 Installation

Front View Product Description

Rear View

UP and DOWN buttons are used whenadjusting the OSD of your monitor.

LEFT and RIGHT buttons, like the UP andDOWN buttons, are also used in adjusting theOSD of your monitor.

BRIGHTNESS hotkey. When the UP andDOWN arrow buttons are pressed, theadjustment controls for the BRIGHTNESS willshow up.

OK button which when pressed will take youto the OSD controls.

POWER button switches your monitor on.

Automatically adjust the horizontal position,vertical position, phase and clock setting.

190P5

Connecting your monitor

1)

2)

Note:

3)

(a)

(b)

(c)

(d)

Plug the power cord into monitor Firmly.

Clip the power cord and signal cable together for cable

Management

If you use an Apple Macintosh, you need to connect thespecial Mac adapter to one end of the monitor signal cable.

Connect to PC

Turn off your computer and unplug its power cable.

Connect the monitor signal cable to the video connector onthe back of your computer.

Plug the power cord of your computer and your monitor intoa nearby outlet.

Turn on your computer and monitor. If the monitor displaysAn image, installation is complete.

1 Kensington anti-thief lock

2 VGA input

3 AC power input

150S5

Go to cover page

4 Installation

Front View Product Description

Rear View

UP and DOWN buttons are used whenadjusting the OSD of your monitor.

LEFT and RIGHT buttons, like the UP andDOWN buttons, are also used in adjusting theOSD of your monitor.

BRIGHTNESS hotkey. When the UP andDOWN arrow buttons are pressed, theadjustment controls for the BRIGHTNESS willshow up.

OK button which when pressed will take youto the OSD controls.

POWER button switches your monitor on.

Automatically adjust the horizontal position,vertical position, phase and clock setting.

190P5

Connecting your monitor

1)

2)

Note:

3)

(a)

(b)

(c)

(d)

Plug the power cord into monitor Firmly.

Clip the power cord and signal cable together for cable

Management

If you use an Apple Macintosh, you need to connect thespecial Mac adapter to one end of the monitor signal cable.

Connect to PC

Turn off your computer and unplug its power cable.

Connect the monitor signal cable to the video connector onthe back of your computer.

Plug the power cord of your computer and your monitor intoa nearby outlet.

Turn on your computer and monitor. If the monitor displaysAn image, installation is complete.

1 Kensington anti-thief lock

2 VGA input

3 AC power input

150S5

Go to cover page

4 Installation

Front View Product Description

Rear View

UP and DOWN buttons are used whenadjusting the OSD of your monitor.

LEFT and RIGHT buttons, like the UP andDOWN buttons, are also used in adjusting theOSD of your monitor.

BRIGHTNESS hotkey. When the UP andDOWN arrow buttons are pressed, theadjustment controls for the BRIGHTNESS willshow up.

OK button which when pressed will take youto the OSD controls.

POWER button switches your monitor on.

Automatically adjust the horizontal position,vertical position, phase and clock setting.

190P5

Connecting your monitor

1)

2)

Note:

3)

(a)

(b)

(c)

(d)

Plug the power cord into monitor Firmly.

Clip the power cord and signal cable together for cable

Management

If you use an Apple Macintosh, you need to connect thespecial Mac adapter to one end of the monitor signal cable.

Connect to PC

Turn off your computer and unplug its power cable.

Connect the monitor signal cable to the video connector onthe back of your computer.

Plug the power cord of your computer and your monitor intoa nearby outlet.

Turn on your computer and monitor. If the monitor displaysAn image, installation is complete.

1 Kensington anti-thief lock

2 VGA input

3 AC power input

150S5

Go to cover page

4 Installation

Front View Product Description

Rear View

UP and DOWN buttons are used whenadjusting the OSD of your monitor.

LEFT and RIGHT buttons, like the UP andDOWN buttons, are also used in adjusting theOSD of your monitor.

BRIGHTNESS hotkey. When the UP andDOWN arrow buttons are pressed, theadjustment controls for the BRIGHTNESS willshow up.

OK button which when pressed will take youto the OSD controls.

POWER button switches your monitor on.

Automatically adjust the horizontal position,vertical position, phase and clock setting.

9150S5FG8 150S5FG 9150S5FG8 150S5FG

DIAGRAMA DE LIGAÇÕES

10 Wiring Diagram150S5

Go to cover page

9150S5FG8 150S5FG 9150S5FG8 150S5FG

Vista Frontal

Vista Traseira

Passo 1- Remova a base como mostra a fig. 3. Remova os 3 parafusos.

Passo 2- Remova o pedestral frontal Remova o parafuso como mostra a fig. 4. Use o parafuso fino tipo "I" para abrir os clicks como mostra a fig. 5. Remova o pedestal frontal.

INSTRUÇÕES MECÂNICAS

11Mechanical Instructions

Front view

Fig. 1

Fig. 2

Fig. 3

Step 1. Remove the base as shown in Fig .3

- Remover the three screws

Fig. 4

Back view

Fig.5

Step 2. Remove the Front Bezel

- Remove the one screw as shown in Fig. 4

- Use the thin "I" type screw driver to open the clicks

as shown in Fig.5.

- Remove the Front Bezel .

Fig.6

Fig.7

Step 3.Remove the

Use the thin "I" type screw driver to open the clicks

as shown in Fig. 7.

- Remove the Back cover.

Back cover

- Remove the two screws as shown in Fig, 6.

- Remove the Cable in Control board as shown in Fig. 6.

-

150S5

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==

==

=>

==

==

=>

Botton view

Control board

==

==

=>

==

==

=>

==

==

=>

Right and Left view

Passo 3- Remova a tampa traseira Remova os 2 parafusos como mostra a fig. 6. Remova o Cabo no painel de controle como mostra a fig. 6. Use o parafuso fino tipo "I" para abrir os clicks como mostra a fig. 7. Remova a tampa traseira.

11Mechanical Instructions

Front view

Fig. 1

Fig. 2

Fig. 3

Step 1. Remove the base as shown in Fig .3

- Remover the three screws

Fig. 4

Back view

Fig.5

Step 2. Remove the Front Bezel

- Remove the one screw as shown in Fig. 4

- Use the thin "I" type screw driver to open the clicks

as shown in Fig.5.

- Remove the Front Bezel .

Fig.6

Fig.7

Step 3.Remove the

Use the thin "I" type screw driver to open the clicks

as shown in Fig. 7.

- Remove the Back cover.

Back cover

- Remove the two screws as shown in Fig, 6.

- Remove the Cable in Control board as shown in Fig. 6.

-

150S5

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==

==

=>

==

==

=>

Botton view

Control board

==

==

=>

==

==

=>

==

==

=>

Right and Left view

11Mechanical Instructions

Front view

Fig. 1

Fig. 2

Fig. 3

Step 1. Remove the base as shown in Fig .3

- Remover the three screws

Fig. 4

Back view

Fig.5

Step 2. Remove the Front Bezel

- Remove the one screw as shown in Fig. 4

- Use the thin "I" type screw driver to open the clicks

as shown in Fig.5.

- Remove the Front Bezel .

Fig.6

Fig.7

Step 3.Remove the

Use the thin "I" type screw driver to open the clicks

as shown in Fig. 7.

- Remove the Back cover.

Back cover

- Remove the two screws as shown in Fig, 6.

- Remove the Cable in Control board as shown in Fig. 6.

-

150S5

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==

==

=>

==

==

=>

Botton view

Control board

==

==

=>

==

==

=>

==

==

=>

Right and Left view

11Mechanical Instructions

Front view

Fig. 1

Fig. 2

Fig. 3

Step 1. Remove the base as shown in Fig .3

- Remover the three screws

Fig. 4

Back view

Fig.5

Step 2. Remove the Front Bezel

- Remove the one screw as shown in Fig. 4

- Use the thin "I" type screw driver to open the clicks

as shown in Fig.5.

- Remove the Front Bezel .

Fig.6

Fig.7

Step 3.Remove the

Use the thin "I" type screw driver to open the clicks

as shown in Fig. 7.

- Remove the Back cover.

Back cover

- Remove the two screws as shown in Fig, 6.

- Remove the Cable in Control board as shown in Fig. 6.

-

150S5

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==

==

=>

==

==

=>

Botton view

Control board

==

==

=>

==

==

=>

==

==

=>

Right and Left view

11Mechanical Instructions

Front view

Fig. 1

Fig. 2

Fig. 3

Step 1. Remove the base as shown in Fig .3

- Remover the three screws

Fig. 4

Back view

Fig.5

Step 2. Remove the Front Bezel

- Remove the one screw as shown in Fig. 4

- Use the thin "I" type screw driver to open the clicks

as shown in Fig.5.

- Remove the Front Bezel .

Fig.6

Fig.7

Step 3.Remove the

Use the thin "I" type screw driver to open the clicks

as shown in Fig. 7.

- Remove the Back cover.

Back cover

- Remove the two screws as shown in Fig, 6.

- Remove the Cable in Control board as shown in Fig. 6.

-

150S5

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==

==

=>

==

==

=>

Botton view

Control board

==

==

=>

==

==

=>

==

==

=>

Right and Left view

11150S5FG10 150S5FG 11150S5FG10 150S5FG

Passo 4- Remova o painel Power e Scaler. Remova os 3 parafusos com omostra a fig. 8. Desconecte DVI e os parafusos hexagonal D-SUB como mostra a fig. 8. Remova o painel frame como mostra a fig. 9.

2 parafusos hexagonais

Passo 5- Remova o painel scaler e power. Remova os 7 parafusos como mostra a fig. 9. Desconecte 1412, 1502, 1503 e os 2 cabos iluminação tra- seira como mostra a fig. 9. Remova o painel power e scaler como mostra a fig. 10.

Na garantia, não é permitido a desmontagem do painel LCD, mesmo odefeito da unidade da iluminação traseira.Fora da garantia, a troca da unidade de iluminação traseira deve ser feita quando o defeito for causado pela lâmpada. (CCFL, Lamp).

12 Mechanical Instructions

Step 5. Remove the scaler and power board .

- Disconnect the 1412,1502 ,1503 and 2 backlight cables

as shown in Fig9 .

- Remove the scaler and power board as shown in Fig10.

- Remove the seven screws as shown in Fig. 9.

***************************************************************************

In warranty, it is not allowed to disassembly the LCD panel, even the

backlight unit defect.

Out of warranty, the replacment of backlight unit is a correct way

when the defect is cused by backlight (CCFL,Lamp).

***************************************************************************

Step 4.Remove the Scaler and Power board

- Remove the three screws as shown in Fig. 8 .

- Disconnect DVI and D-SUB hexagonal screws

as shown in Fig. 8.

- Remove the matel frame board as shown in Fig. 9.

Fig.9

150S5

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Fig. 10

Fig. 11

Fig.8======>

======>

2 Hexagonal screws

======>

======>

2 backlight cables

1503 to control

1502 to power

1412 to panel

ScalerPower

Panel

==========>

1050 823827714731TFT-LCD MOD LM150X08-A4

1050 823827714721TFT-LCD MOD CLAA150XP01

12 Mechanical Instructions

Step 5. Remove the scaler and power board .

- Disconnect the 1412,1502 ,1503 and 2 backlight cables

as shown in Fig9 .

- Remove the scaler and power board as shown in Fig10.

- Remove the seven screws as shown in Fig. 9.

***************************************************************************

In warranty, it is not allowed to disassembly the LCD panel, even the

backlight unit defect.

Out of warranty, the replacment of backlight unit is a correct way

when the defect is cused by backlight (CCFL,Lamp).

***************************************************************************

Step 4.Remove the Scaler and Power board

- Remove the three screws as shown in Fig. 8 .

- Disconnect DVI and D-SUB hexagonal screws

as shown in Fig. 8.

- Remove the matel frame board as shown in Fig. 9.

Fig.9

150S5

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Fig. 10

Fig. 11

Fig.8======>

======>

2 Hexagonal screws

======>

======>

2 backlight cables

1503 to control

1502 to power

1412 to panel

ScalerPower

Panel

==========>

1050 823827714731TFT-LCD MOD LM150X08-A4

1050 823827714721TFT-LCD MOD CLAA150XP01

12 Mechanical Instructions

Step 5. Remove the scaler and power board .

- Disconnect the 1412,1502 ,1503 and 2 backlight cables

as shown in Fig9 .

- Remove the scaler and power board as shown in Fig10.

- Remove the seven screws as shown in Fig. 9.

***************************************************************************

In warranty, it is not allowed to disassembly the LCD panel, even the

backlight unit defect.

Out of warranty, the replacment of backlight unit is a correct way

when the defect is cused by backlight (CCFL,Lamp).

***************************************************************************

Step 4.Remove the Scaler and Power board

- Remove the three screws as shown in Fig. 8 .

- Disconnect DVI and D-SUB hexagonal screws

as shown in Fig. 8.

- Remove the matel frame board as shown in Fig. 9.

Fig.9

150S5

Go to cover page

Fig. 10

Fig. 11

Fig.8======>

======>

2 Hexagonal screws

======>

======>

2 backlight cables

1503 to control

1502 to power

1412 to panel

ScalerPower

Panel

==========>

1050 823827714731TFT-LCD MOD LM150X08-A4

1050 823827714721TFT-LCD MOD CLAA150XP01

12 Mechanical Instructions

Step 5. Remove the scaler and power board .

- Disconnect the 1412,1502 ,1503 and 2 backlight cables

as shown in Fig9 .

- Remove the scaler and power board as shown in Fig10.

- Remove the seven screws as shown in Fig. 9.

***************************************************************************

In warranty, it is not allowed to disassembly the LCD panel, even the

backlight unit defect.

Out of warranty, the replacment of backlight unit is a correct way

when the defect is cused by backlight (CCFL,Lamp).

***************************************************************************

Step 4.Remove the Scaler and Power board

- Remove the three screws as shown in Fig. 8 .

- Disconnect DVI and D-SUB hexagonal screws

as shown in Fig. 8.

- Remove the matel frame board as shown in Fig. 9.

Fig.9

150S5

Go to cover page

Fig. 10

Fig. 11

Fig.8======>

======>

2 Hexagonal screws

======>

======>

2 backlight cables

1503 to control

1502 to power

1412 to panel

ScalerPower

Panel

==========>

1050 823827714731TFT-LCD MOD LM150X08-A4

1050 823827714721TFT-LCD MOD CLAA150XP01

11150S5FG10 150S5FG 11150S5FG10 150S5FG

Geral

Ao ajustar os valores elétricos, em muitos casos um sinal de vídeo deve ser aplicado ao monitor. Como fonte de sinal de vídeo, é utilizado um computador com:

- Placa de Interface ATI VGA 1024V6-1.04/PH BETA4- PGA 1024, Mach 8- PGA 1280, Mach 32- ATI GPT-1600 , Mach 64 (até 107kHz)

Os padrões de sinal são selecionados do pacote "software de teste de serviço", veja guia do usuário (ATI1024), (PGA 1280) ou (GPT-1600).

1. Com placa VGA normal:Se não estiver usando uma placa ATI durante reparo ou ajuste, o técnico de serviço também pode usar este software de teste de serviço adaptado com uma placa VGA normal e usando modo padrão 640 x 480, 31.5kHz (unicamente) como fonte de sinal.

2. Medição AC/DC

As medições das formas de onda AC e DC é baseada no modo de resolução1024 x 768 48kHz/60 Hz com padrão de teste "escala cinza 32", alimentação 110V AC.

Pontos Gerais

1. Durante todos os ajustes, forneça uma tensão AC livre de distor- ções através de um transformador isolador com impedância interna baixa.

2. Todas as medições mencionadas são realizados daqui por diante em uma tensão de (90 -132 VAC para versão USA, 195 - 264 VAC para versão Européia, ou 90 - 264 VAC para modelo com fonte de alimentação "full range", a menos que indicado em contrário.

3. Todas as tensões devem ser medidas ou aplicadas com relação ao terra.

Nota: Não use o dissipador como terra.

4. O teste deve ser feito com um aparelho completo incluindo painel LCD em sala com temperaura de +/- 25º.

5. Todos os valores mencionados nesta instrução de teste são unica- mente aplicados a instrumentos bem alinhados, com sinal correto.

6. Os símbolos (B) e (S) localizados abaixo da instrução de teste denota: (B): inspeção 100% realizada na linha do conjunto (S): teste realizado pela amostragem

7. O balanço de branco (temperatura cor), tem que ser testado em um quarto iluminado.

8. O ciclo de ligar/desligar a alimentação é permitido, todavia deve ser evitado dentro de 6 segundos.

Sinal de Entrada

1. Tipo de sinal Vídeo: 0.7 Vpp linear, polaridade positiva Sincronismo: nível TTL, separado, polaridade positiva ou negativa Fonte de Sinal: Gerador de teste padrão.

2. Modo entrada de sinal 14 modos de pré-ajuste

Resolução de vídeo - ajuste de fábrica

3. Adaptador AC1. Entrada de AC I/P em 90VAC, e saída DC com carga de 3.8 Amp. A tensão de saída DC é 12 ±0,5 VDC.2. O ajuste não é realizado.

4. Ajuste de Display4.1 Auto ajuste da cor (B)Aplique um sinal 640 * 480/60Hz com padrão de teste branco de 16níveis de cinza, ajuste o controle de brilho em 100%, e contraste em 50%. Ajuste o offset de RGB, e ganho para calibrar a cor e o nível de cinza 64 até ser levemente visível.

4.2 Ajuste da temperatura de cor (B)Aplique um 1024 * 768, sinal 48.36kHz/60Hz com teste padrãobranco. Ajuste o controle de brilho em 100%, e o controle do contrasteem 50%.Ajuste o ganho de RGB para o padrão de fábrica para alcançar à tem-peratura de cor (veja tabela abaixo) no centro da tela. As coordenadas de cromaticidade 1931 CIE (X, Y) será:

Use um Minolta CA-110 para verificar as coordenadas de cor e lumi-nância. A luminância deve ser > 200 nits no centro da tela.

4.3 Ajuste do sRGBAplique um sinal 1024*768/60Hz com padrão de teste branco, ajusteo controle de brilho em 100%, e contraste em 50%. Ajuste o ganho deRGB Secundário, para o centro da tela, a coordenada de cromatici-dade 1931 CIE (X, Y) será;

4.4 Pré ajuste de EEPROM (B)Após ter terminado todos os ajustes, posicione o controle de brilhopara 100% e o de contraste para 50%. OSD no meio da tela e ajuste de cor para 6500K.

Instruções Elétricas

14 Electrical Instructions150S5

Go to cover page

1.

PRESET VIDEO RESOLUTION

3. AC Adaptor

4. Display Adjustment

General points1.1 During the test and measuring, supply a distortion free AC

mains voltage to the apparatus via an isolated transformerwith low internal resistance.

1.2 All measurements mentioned hereafter are carried out at aNormal mains voltage (90 - 132 VAC for USA version,195 -264 VAC for EUROPEAN version, or 90 - 264 VAC forthe model with full range power supply, unless otherwisestated.)

1.3 All voltages are to be measured or applied with respect toground,unless otherwise stated.Note: don't use heat-sink as ground.

1.4 The test has to be done on a complete set including LCDpanel after 30 minutes warm-up at least in a room withtemperature of 25 +/- 5 degree C.

1.5 All values mentioned in this test instruction are onlyapplicable of a well aligned apparatus, with correct signal.

1.6 The letters symbols (B) and (S) placed behind the testinstruction denotes(B): carried out 100% inspection at assembly line(S): carried out test by sampling

1.7 The white balance (color temperature), has to be tested insubdued lighted room.

1.8 Repetitive power on/off cycle are allowed except it shouldbe avoided within 6 sec.

2. Input signal--------------

2.1 Signal typeVideo: 0.7 Vp-p linear, positive polaritySync. : TTL level, separate, positive or negative polarity

Signal source: pattern generator format asattachmentReference generator: Quantum 802BT or VTG 1250

2.2 Allowed signal mode specified

3.1 Setup the AC I/P at 90VAC, and Output DC loading at 12V 1.6Amp, 3V3 1Amp, The DC output voltages are 3.3V 0.16V DC, and 12VDC (+11V ~ 16 V)

4.1 Auto color adjustment (B)Apply a 640 * 480 / 60Hz signal with 16 level grey testpattern, set brightness control at 100%, and contrast controlat 50%. Adjust the R. G. B offset, and gain to calibrate thecolor smoothly and 64-grey level distinguishable.

4.2 Color temperature adjustment (B)Apply a 1024 * 768 , 48.36kHz / 60Hz signal with whitePattern. Set brightness control at 100%, and contrastcontrol at 50%.Adjust the R.G. B gain in factory setting to reach specialcolor temperature on center of screen.The 1931 CIE chromaticity (X, Y) co-ordinates shall be:

Use Minolta CA-110 for color coordinates and luminance check.Luminance is > 200 nits in the center of the screen at originalpanel color.

4.3 Adjustment of sRGBApply a 1024*768 / 60Hz signal with white pattern, setbrightness control at 100%, and contrast control at 50%.Adjust the R, G, B Sub-Gain, for the screen center, the1931 CIE chromaticity (X, Y) co-ordinates shall be;

4.4 EEPROM presetting (B)After finishing all the adjustment, set:Brightness control to 100%Contrast control to 50%OSD position at middle of screenCOLOR ADJUST to 6500K

9300�K 6500�K

x (center) 0.283� 0.005 0.313� 0.005

y (center) 0.297� 0.005 0.329� 0.005

sRGB

x(center) 0.313� 0.005

y(center) 0.329� 0.005

Ynits 180 � 10

14 Electrical Instructions150S5

Go to cover page

1.

PRESET VIDEO RESOLUTION

3. AC Adaptor

4. Display Adjustment

General points1.1 During the test and measuring, supply a distortion free AC

mains voltage to the apparatus via an isolated transformerwith low internal resistance.

1.2 All measurements mentioned hereafter are carried out at aNormal mains voltage (90 - 132 VAC for USA version,195 -264 VAC for EUROPEAN version, or 90 - 264 VAC forthe model with full range power supply, unless otherwisestated.)

1.3 All voltages are to be measured or applied with respect toground,unless otherwise stated.Note: don't use heat-sink as ground.

1.4 The test has to be done on a complete set including LCDpanel after 30 minutes warm-up at least in a room withtemperature of 25 +/- 5 degree C.

1.5 All values mentioned in this test instruction are onlyapplicable of a well aligned apparatus, with correct signal.

1.6 The letters symbols (B) and (S) placed behind the testinstruction denotes(B): carried out 100% inspection at assembly line(S): carried out test by sampling

1.7 The white balance (color temperature), has to be tested insubdued lighted room.

1.8 Repetitive power on/off cycle are allowed except it shouldbe avoided within 6 sec.

2. Input signal--------------

2.1 Signal typeVideo: 0.7 Vp-p linear, positive polaritySync. : TTL level, separate, positive or negative polarity

Signal source: pattern generator format asattachmentReference generator: Quantum 802BT or VTG 1250

2.2 Allowed signal mode specified

3.1 Setup the AC I/P at 90VAC, and Output DC loading at 12V 1.6Amp, 3V3 1Amp, The DC output voltages are 3.3V 0.16V DC, and 12VDC (+11V ~ 16 V)

4.1 Auto color adjustment (B)Apply a 640 * 480 / 60Hz signal with 16 level grey testpattern, set brightness control at 100%, and contrast controlat 50%. Adjust the R. G. B offset, and gain to calibrate thecolor smoothly and 64-grey level distinguishable.

4.2 Color temperature adjustment (B)Apply a 1024 * 768 , 48.36kHz / 60Hz signal with whitePattern. Set brightness control at 100%, and contrastcontrol at 50%.Adjust the R.G. B gain in factory setting to reach specialcolor temperature on center of screen.The 1931 CIE chromaticity (X, Y) co-ordinates shall be:

Use Minolta CA-110 for color coordinates and luminance check.Luminance is > 200 nits in the center of the screen at originalpanel color.

4.3 Adjustment of sRGBApply a 1024*768 / 60Hz signal with white pattern, setbrightness control at 100%, and contrast control at 50%.Adjust the R, G, B Sub-Gain, for the screen center, the1931 CIE chromaticity (X, Y) co-ordinates shall be;

4.4 EEPROM presetting (B)After finishing all the adjustment, set:Brightness control to 100%Contrast control to 50%OSD position at middle of screenCOLOR ADJUST to 6500K

9300�K 6500�K

x (center) 0.283� 0.005 0.313� 0.005

y (center) 0.297� 0.005 0.329� 0.005

sRGB

x(center) 0.313� 0.005

y(center) 0.329� 0.005

Ynits 180 � 10

14 Electrical Instructions150S5

Go to cover page

1.

PRESET VIDEO RESOLUTION

3. AC Adaptor

4. Display Adjustment

General points1.1 During the test and measuring, supply a distortion free AC

mains voltage to the apparatus via an isolated transformerwith low internal resistance.

1.2 All measurements mentioned hereafter are carried out at aNormal mains voltage (90 - 132 VAC for USA version,195 -264 VAC for EUROPEAN version, or 90 - 264 VAC forthe model with full range power supply, unless otherwisestated.)

1.3 All voltages are to be measured or applied with respect toground,unless otherwise stated.Note: don't use heat-sink as ground.

1.4 The test has to be done on a complete set including LCDpanel after 30 minutes warm-up at least in a room withtemperature of 25 +/- 5 degree C.

1.5 All values mentioned in this test instruction are onlyapplicable of a well aligned apparatus, with correct signal.

1.6 The letters symbols (B) and (S) placed behind the testinstruction denotes(B): carried out 100% inspection at assembly line(S): carried out test by sampling

1.7 The white balance (color temperature), has to be tested insubdued lighted room.

1.8 Repetitive power on/off cycle are allowed except it shouldbe avoided within 6 sec.

2. Input signal--------------

2.1 Signal typeVideo: 0.7 Vp-p linear, positive polaritySync. : TTL level, separate, positive or negative polarity

Signal source: pattern generator format asattachmentReference generator: Quantum 802BT or VTG 1250

2.2 Allowed signal mode specified

3.1 Setup the AC I/P at 90VAC, and Output DC loading at 12V 1.6Amp, 3V3 1Amp, The DC output voltages are 3.3V 0.16V DC, and 12VDC (+11V ~ 16 V)

4.1 Auto color adjustment (B)Apply a 640 * 480 / 60Hz signal with 16 level grey testpattern, set brightness control at 100%, and contrast controlat 50%. Adjust the R. G. B offset, and gain to calibrate thecolor smoothly and 64-grey level distinguishable.

4.2 Color temperature adjustment (B)Apply a 1024 * 768 , 48.36kHz / 60Hz signal with whitePattern. Set brightness control at 100%, and contrastcontrol at 50%.Adjust the R.G. B gain in factory setting to reach specialcolor temperature on center of screen.The 1931 CIE chromaticity (X, Y) co-ordinates shall be:

Use Minolta CA-110 for color coordinates and luminance check.Luminance is > 200 nits in the center of the screen at originalpanel color.

4.3 Adjustment of sRGBApply a 1024*768 / 60Hz signal with white pattern, setbrightness control at 100%, and contrast control at 50%.Adjust the R, G, B Sub-Gain, for the screen center, the1931 CIE chromaticity (X, Y) co-ordinates shall be;

4.4 EEPROM presetting (B)After finishing all the adjustment, set:Brightness control to 100%Contrast control to 50%OSD position at middle of screenCOLOR ADJUST to 6500K

9300�K 6500�K

x (center) 0.283� 0.005 0.313� 0.005

y (center) 0.297� 0.005 0.329� 0.005

sRGB

x(center) 0.313� 0.005

y(center) 0.329� 0.005

Ynits 180 � 10

13150S5FG12 150S5FG 13150S5FG12 150S5FG

Todos os aparelhos que entrarem para consertos devem passar pelos testes de segurança de fábrica. Os testes exigidos são o de HI-POT e o de continuidade do terra.

Instrução do Teste de HI-POT

1. Requerimentos da aplicação.

1.1 Todos os produtos ligados à rede elétrica devem passar pelo teste de HI-POT como descrito nesta Instrução.

1.2 Este teste deve ser feito novamente após o gabinete ser fechado após o reparo, inspeção ou modificação do produto.

2. Método de Teste

2.1 Condições de conexão

2.1.1 O teste especificado deve ser aplicado entre os pinos do plug do cabo de força e qualquer peça de metal acessível no produto.

2.1.2 Antes de realizar o teste, conexões confiáveis de condu- tores, devem ser asseguradas e depois mantidas durante todo o período de teste.

2.1.3 A chave power deve estar na posição ligada.

2.2 Requerimentos do teste

Todos os produtos devem ser testados no HI-POT e continuidade de terra como mostrado a seguir:

2.2.1 O teste com tensão AC é só para a produção, os Servi- ços Autorizados usam a tensão DC.

2.2.2 A duração mínina do teste para o controle de qualidade deve ser de 1 minuto. Sem breakdown.

2.2.3 A tensão de teste deve ser mantida dentro da tolerância de + 5%.

2.2.4 A lâmina de terra ou pino do plug do cabo de força deve ligado com peças de metal acessíveis.

Tensão 2820VDC 1700VDC Teste de corrente:de teste (2000VAC) (1200VAC) 25A, AC

Tempo de teste:Tempo de 3 segundos 1 segundo 3 segundos (min.)

(min.)teste

Resistênciarequirida:

100 uA5 mA <=0.09+R ohm,

Corrente R é a resistência(Teste)

limitação Máx.

0,1 uAlimitação Mín.

do cabo de força.

Tempo de ajuste para 2subida segundos

Condição Teste Hi-Pot para

continuidade deterra.

produtos ondeRequerimentospara o teste de

a faixa de tensãoé completa é apenasou 220V AC

Teste Hi-Pot paraprodutos ondea faixa de tensão

110V AC

3. Equipamento e conexões

3.1. Equipamentos Por exemplo : - ChenHwa 9032 PROGRAMMABLE AUTO SAFETY TESTER - ChenHwa 510B Digital Grounding Continuity Tester - ChenHwa 901 (AC Hi-pot test), 902 (AC, DC Hi-pot test)

3.2. Conexão * Ligue a chave power do monitor antes de fazer os testes de HI-POT e continuidade de terra.

4. Gravação

Os registros dos testes de Hi-pot e continuidade de terra devem ser mantidos por um período de 10 anos

Conecte o cabo de vídeo

à garra jacaré do seu teste

Cabo de vídeo

ou o parafuso de aterramento

(Vista traseira do monitor)

Conectado ao cabo de forçado monitor.

Parafuso de terra

Tomada de força

(ChenHwa 9032 )

Clip

garra jacaré

EQUIPAMENTOS DE SEGURANÇA REQUERIDOS

13150S5FG12 150S5FG 13150S5FG12 150S5FG

INSTRUÇÕES DDC

1. Geral Re-programação de Dados do DDC

No caso da EEPROM principal, que armazena todos os valores de fábrica, ser substituída devido a um defeito, o monitor reparado deve ter os números seriais reprogramados.

Quando o defeito é no painel principal, a EEPROM principal antiga deve ser colocada no novo painel, neste caso não há necessidade de reprogramação.

Informação Adicional Informação Adicional sobre DDC (Canal de Exibição de Dados) pode ser obtido da Associação de Padrões de Eletrônica de Vídeo (VESA). Informações de (EDID) Dados de Identificação de Display Exten dido, pode ser também obtidas da VESA.

2. Equipamentos e Sistemas requeridos

1. Um computador pessoal i486 (ou superior) ou compatível.2. Sistema operacional Microsoft Windows 95/98. Deve-se instalar o programa EDID_PORT_ TOOL do WIN2000/XP. Como mostra a fig. 1.

A. Copie o "UserPort.sys" para C:\WINNT\system32\drivers8win2000) C:\WINDOWS\system32\drivers(winXP)B. Execute "io.exe", antes de iniciar a programação edid data.

3. Programa EDID46.EXE .4. Kits de ajuste do A/D como mostrado na fig.2

O kit contém: a) Caixa de ajuste x1 b) Cabo de Impressora x1 c) Cabo D-Sub para D-Sub x1

Nota: O EDID46.EXE é um programa baseado em windows, que não pode ser executado em MS-DOS.

Nota: O ajuste da caixa já possui um soquete de baterias configu- rado para usar baterias (9V) como fonte. Puxe o soquete para

remover 4 parafusos na traseira da caixa. Por favor, não esqueça de remover as baterias depois da programação. A

energia da bateria pode alimentar os circuitos por um período curto de tempo.

Configuração dos Pinos

Conector 15 pinos D-Sub

To MonitorD-sub cable

DC 8~12V

To Printer port

Powerindicator

Fig. 3

60 DDC Instructions

General

Pin assignmentA. 15-pin D-Sub Connector

DDC Data Re-programming

Analog DDC IC, & EEPROM

Additional information

In case the DDC data memory IC or main EEPROM which storage allfactory settings were replaced due to a defect, the serial numbers haveto be re-programmed" ".It is advised to re-soldered DDC IC and main EEPROM from the oldboard onto the new board if circuit board have been replaced, in this casethe DDC data does not need to be re-programmed.

Additional information about DDC (Display Data Channel) may beobtained from Video Electronics Standards Association (VESA).Extended Display Identification Data(EDID) information may be alsoobtained from VESA.

1. An i486 (or above) personal computer or compatible.2. Microsoft operation system Windows 95/98 .

Y o Install the EDID_PORT_Tool under Win2000/XP . AsFig. 1 .

A. Cody the "UserPort.sys" to C:\WINNT\system32\drivers(win2000)

C:\WINDOWS\system32\drivers(winXP)

B. Running " io.exe" everytime, Before you start to programmingedid data .

4. A/D Alignment kits (3138 106 10079):inclusion : a. Alignment box x1 (as Fig. 2)

b. Printer cable x1c. (D-Sub) to (D-Sub) cable x1

Note: The EDID46.EXE is a windows-based program, which cannotbe run in MS-DOS.

System and equipment requirements

ou have t

3. EDID46.EXE program .

Note: The alignment box has already build-in a batteries socket forusing as power source. Pull out the socket byremove four screws at the rear of box. Please do not forget thatremove batteries after programming. The energy of batteries canonly drive circuits for a short period of time.

batteries (8~12V)

Fig. 2

Fig. 1

150S5

Go to cover page

PIN No. SIGNAL

1 Red

2 Green/SOG

3 Blue

4 Sense (GND)

5 Test (GND)

6 Red GND

7 Green GND

8 Blue GND

9 +5V

10 Sync GND

11 Sense (GND)

12 Serial data (SDA)

13 H/H+V sync

14 V-sync

15 Data clock (SCL)

To MonitorD-sub cable

DC 8~12V

To Printer port

Powerindicator

Fig. 3

60 DDC Instructions

General

Pin assignmentA. 15-pin D-Sub Connector

DDC Data Re-programming

Analog DDC IC, & EEPROM

Additional information

In case the DDC data memory IC or main EEPROM which storage allfactory settings were replaced due to a defect, the serial numbers haveto be re-programmed" ".It is advised to re-soldered DDC IC and main EEPROM from the oldboard onto the new board if circuit board have been replaced, in this casethe DDC data does not need to be re-programmed.

Additional information about DDC (Display Data Channel) may beobtained from Video Electronics Standards Association (VESA).Extended Display Identification Data(EDID) information may be alsoobtained from VESA.

1. An i486 (or above) personal computer or compatible.2. Microsoft operation system Windows 95/98 .

Y o Install the EDID_PORT_Tool under Win2000/XP . AsFig. 1 .

A. Cody the "UserPort.sys" to C:\WINNT\system32\drivers(win2000)

C:\WINDOWS\system32\drivers(winXP)

B. Running " io.exe" everytime, Before you start to programmingedid data .

4. A/D Alignment kits (3138 106 10079):inclusion : a. Alignment box x1 (as Fig. 2)

b. Printer cable x1c. (D-Sub) to (D-Sub) cable x1

Note: The EDID46.EXE is a windows-based program, which cannotbe run in MS-DOS.

System and equipment requirements

ou have t

3. EDID46.EXE program .

Note: The alignment box has already build-in a batteries socket forusing as power source. Pull out the socket byremove four screws at the rear of box. Please do not forget thatremove batteries after programming. The energy of batteries canonly drive circuits for a short period of time.

batteries (8~12V)

Fig. 2

Fig. 1

150S5

Go to cover page

PIN No. SIGNAL

1 Red

2 Green/SOG

3 Blue

4 Sense (GND)

5 Test (GND)

6 Red GND

7 Green GND

8 Blue GND

9 +5V

10 Sync GND

11 Sense (GND)

12 Serial data (SDA)

13 H/H+V sync

14 V-sync

15 Data clock (SCL)

To MonitorD-sub cable

DC 8~12V

To Printer port

Powerindicator

Fig. 3

60 DDC Instructions

General

Pin assignmentA. 15-pin D-Sub Connector

DDC Data Re-programming

Analog DDC IC, & EEPROM

Additional information

In case the DDC data memory IC or main EEPROM which storage allfactory settings were replaced due to a defect, the serial numbers haveto be re-programmed" ".It is advised to re-soldered DDC IC and main EEPROM from the oldboard onto the new board if circuit board have been replaced, in this casethe DDC data does not need to be re-programmed.

Additional information about DDC (Display Data Channel) may beobtained from Video Electronics Standards Association (VESA).Extended Display Identification Data(EDID) information may be alsoobtained from VESA.

1. An i486 (or above) personal computer or compatible.2. Microsoft operation system Windows 95/98 .

Y o Install the EDID_PORT_Tool under Win2000/XP . AsFig. 1 .

A. Cody the "UserPort.sys" to C:\WINNT\system32\drivers(win2000)

C:\WINDOWS\system32\drivers(winXP)

B. Running " io.exe" everytime, Before you start to programmingedid data .

4. A/D Alignment kits (3138 106 10079):inclusion : a. Alignment box x1 (as Fig. 2)

b. Printer cable x1c. (D-Sub) to (D-Sub) cable x1

Note: The EDID46.EXE is a windows-based program, which cannotbe run in MS-DOS.

System and equipment requirements

ou have t

3. EDID46.EXE program .

Note: The alignment box has already build-in a batteries socket forusing as power source. Pull out the socket byremove four screws at the rear of box. Please do not forget thatremove batteries after programming. The energy of batteries canonly drive circuits for a short period of time.

batteries (8~12V)

Fig. 2

Fig. 1

150S5

Go to cover page

PIN No. SIGNAL

1 Red

2 Green/SOG

3 Blue

4 Sense (GND)

5 Test (GND)

6 Red GND

7 Green GND

8 Blue GND

9 +5V

10 Sync GND

11 Sense (GND)

12 Serial data (SDA)

13 H/H+V sync

14 V-sync

15 Data clock (SCL)

Função dos pinos:

Nº pino Sinal1 Vermelho2 Verde/SOG3 Azul4 sensor(GND)5 Teste(GND)6 Vermelho GND7 Verde GND8 Azul GND9 +5V

10 Sync GND11 Sensor (GND)12 Serial data (SDA)13 H/H+V sync14 V-sync15 Data clock (SCL)

Modos de preset de fábrica(* 140 modos)Resolução

STATUSH-sync

V-sync

Video Power LED/Remark

On On On Active <20 WGreen /WithoutAudio

Stand-by Off On Blanked <1W Amber

Suspend On Off Blanked <1W Amber

Off Off Off Blanked <1W AmberDC Poweroff

N / A <1W LED Off

Modo Resolução H. freq. / V. freq Standard

15150S5FG14 150S5FG 15150S5FG14 150S5FG

3- No sub-menu digite a letra do seu drive de disquete seguido por : EDID46 (por exemplo, C:\EDID46, como mostra a fig. 6)

4- Clique o botão OK. O menu principal será mostrado (como mostra a fig. 7) Inicialize a caixa de ajuste.

Nota: Se a conexão é imprópria, você verá a seguinte mensagem de erro antes de entrar no menu principal (como mostra a

fig. 8). Enquanto isso, a função (Read EDID) estará desabili tada. Por favor assegure-se que todos os cabos estão conecta dos e fixados corretamente e que o procedimento tenha sido realizado apropriadamente.

Nota: Durante o carregamento , o EDID46 verificará os dados de EDID

que carregou do monitor antes de prosseguir com outra função, uma vez que a estrutura dos dados do EDID não podem ser reco-nhecidos, aparecerá a seguinte mensagem de erro na tela. Por favor confirme os seguintes passos para evitar esta mensagem.

1. A estrutura do dado do EDID estava incorreta. 2. O dado DDC IC que você esta tentando carregar está vazio. 3. Canal de comunicação configurado errado no Windows. 4. Cabos soltos ou mau contato na conexão.

4. Configuração e Procedimento

Há dois chips contidos no cordão OSD, número de série no painel de circuito EEPROM principal que armazena todos os ajustes de fábrica.CI DDC armazena 128byte de dados EDID. As seções seguintes des-crevem a conexão e o procedimento para aplicação do software DDC. A EEPROM principal pode ser reprogramada utilizando-se a função "Factory memory data write" no programa DDC (EDID46.EXE).

Inicialize caixa de ajuste

Para evitar que o monitor entre no modo de economia de energia, devido ao corte do sincronismo através da caixa de ajuste, é necessá-rio iniciar a caixa de ajustes antes de reprogramar os dados DDC.Os seguintes passos mostram os procedimentos e a conexão.

Passo1: Alimente a caixa de ajustes com uma fonte DC de 8 ~ 12V ligando um cabo de força DC ou usando baterias.Passo 2: Conecte o cabo da impressora e o cabo de vídeo do monitor como na fig. 4.Passo 3: Instalação do EDID46.EXE

Início da programa DDC

Inicie o Windows Microsoft.1- O programa "EDID46.EXE"no cd-rom manual de serviço será copiado para C:\.2- Click , escolha Run no menu inicial do Windows como mostra a fig. 5.

DDC Instructions

4. Configuration and procedure

There are threeips contained serial number on the circuit board, Analog DDC IC (7202), Digital DDC IC (7201) and main EEPROM (7362) which storage all factory settings. Following descriptions are the connection and procedure for Analog DDC IC and Digital DDC IC, the main EEPROM can be re-programmed along with Analog IC by enable factory memory data write function on the DDC program (EDID301.EXE).

Initialize alignment box

In order to avoid that monitor entering power saving mode due to sync will cut off by alignment box, it is necessary to initialize alignment box before running programming software (EDID301.EXE). Following steps show you the procedures and connection.

Step 1: Supply 8~12V DC power source to the Alignment box by plugging a DC power cord or using batteries.

Step 2: Connecting printer cable and video cable of monitor as Fig. AStep 3: Run the EDID301.EXE program until the main menu appears.

This is for initialize alignment box.

Re-programming DDC IC

Step 1: After initialize alignment box, connecting all cables and box as Fig. 3

Step 2: Press and hold and buttons then power on the monitor.

Step 3: Follow the steps on DDC re-programming instructions to staring re-programming.

Note: DVI-I to D-Sub adapter can be removed if graphic card of PC with a DVI-I interface connector.

~~

PC

Top

rin

ter

po

rt(L

TP

1)

DC Power8~12 V

Fig. A

PrinterPort

Video cable

ToMonitor

To PC

DVI-I to D-SubAdapter

Rear view of 150B/ S

25

Go to cover page

5. DDC re-programming instructions

Start on DDC program

Start Microsoft Windows.1. Insert the disk containing EDID301.EXE program into floppy disk

drive.2. Click , choose Run at start menu of Windows 95/98.

~~

PC

Tovi

de

oca

rd

Top

rin

ter

po

rt(L

TP

1)

DC Power8~12 V

Fig. 3

PrinterPort

ToMonitor

To PC DVI-D to D-SubAdapter

Rear view of 150B/ S

" " " "

25150B3B LCD

D-SUB

D-SUB

61DDC Instructions 190P5

Step 3: Installation of EDID46.EXE

Method 1: Start on DDC program

Start Microsoft Windows.1. The Program"EDID46.EXE" in service manual cd-rom be copyed to C:\ .2. Click , choose Run at start menu of Windows as shownIn Fig. 5.

Fig. 5

4. Click button. The main menu appears (as shown in Fig. 7).OKThis is for initialize alignment box.

Fig. 7

Fig. 6

Fig. 8

Note 1: If the connection is improper, you will see the following errormessage (as shown in Fig. 8) before entering the main menu.Meanwhile, the (read EDID) function will be disable. At this time,please make sure all cables are connected correctly and fixedly,and the procedure has been performed properly.

3. At the submenu, type the letter of your computer's hard disk drivefollowed by :EDID46 (for example, C:\EDID46, as shown in Fig. 6).

Note 2: During the loading, EDID46 will verify the EDID data which justloaded from monitor before proceed any further function, oncethe data structure of EDID can not be recognized, the followingerror message will appear on the screen as below. Pleaseconfirm following steps to avoid this message.1. The data structure of EDID was incorrect.2. DDC IC that you are trying to load data is empty.3. Wrong communication channel has set at configuration setupwindows.

4. Cables loosed or poor contact of connection.

1

Configuration and procedure

There are 2 chips contained OSD string, serial number..etcon the circuit board, main EEPROM which storage all factory settings,OSDstring. DDC IC which storage 128byte EDID data(serial number ..etc.).Following descirptions are the connection and procedure for Analog andmain EEPROM can be re-programmed along with Analog/Digital IC byenable factory memory data write function on the DDC program(EDID46.EXE).

Initialize alignment box

In order to avoid that monitor entering power saving mode dueto sync will cut off by alignment box, it is necessary to initializealignment box before running programming software(EDID46.EXE). Following steps show you the procedures andconnection.

Step 1: Supply 8-12V DC power source to the Alignment box byplugging a DC power cord or using batteries.

Step 2: Connecting printer cable and D-Sub cable of monitor as Fig. 4

Fig. 4

PC1=Power connector2=D-SUB connector

~~

Toprinterport(LTP1)

DC Power8-12 V

PrinterPort

ToMonitor

To PC

1 2

----->

----->

Fig. 9

150S5

Go to cover page61DDC Instructions 190P5

Step 3: Installation of EDID46.EXE

Method 1: Start on DDC program

Start Microsoft Windows.1. The Program"EDID46.EXE" in service manual cd-rom be copyed to C:\ .2. Click , choose Run at start menu of Windows as shownIn Fig. 5.

Fig. 5

4. Click button. The main menu appears (as shown in Fig. 7).OKThis is for initialize alignment box.

Fig. 7

Fig. 6

Fig. 8

Note 1: If the connection is improper, you will see the following errormessage (as shown in Fig. 8) before entering the main menu.Meanwhile, the (read EDID) function will be disable. At this time,please make sure all cables are connected correctly and fixedly,and the procedure has been performed properly.

3. At the submenu, type the letter of your computer's hard disk drivefollowed by :EDID46 (for example, C:\EDID46, as shown in Fig. 6).

Note 2: During the loading, EDID46 will verify the EDID data which justloaded from monitor before proceed any further function, oncethe data structure of EDID can not be recognized, the followingerror message will appear on the screen as below. Pleaseconfirm following steps to avoid this message.1. The data structure of EDID was incorrect.2. DDC IC that you are trying to load data is empty.3. Wrong communication channel has set at configuration setupwindows.

4. Cables loosed or poor contact of connection.

1

Configuration and procedure

There are 2 chips contained OSD string, serial number..etcon the circuit board, main EEPROM which storage all factory settings,OSDstring. DDC IC which storage 128byte EDID data(serial number ..etc.).Following descirptions are the connection and procedure for Analog andmain EEPROM can be re-programmed along with Analog/Digital IC byenable factory memory data write function on the DDC program(EDID46.EXE).

Initialize alignment box

In order to avoid that monitor entering power saving mode dueto sync will cut off by alignment box, it is necessary to initializealignment box before running programming software(EDID46.EXE). Following steps show you the procedures andconnection.

Step 1: Supply 8-12V DC power source to the Alignment box byplugging a DC power cord or using batteries.

Step 2: Connecting printer cable and D-Sub cable of monitor as Fig. 4

Fig. 4

PC1=Power connector2=D-SUB connector

~~

Toprinterport(LTP1)

DC Power8-12 V

PrinterPort

ToMonitor

To PC

1 2

----->

----->

Fig. 9

150S5

Go to cover page

61DDC Instructions 190P5

Step 3: Installation of EDID46.EXE

Method 1: Start on DDC program

Start Microsoft Windows.1. The Program"EDID46.EXE" in service manual cd-rom be copyed to C:\ .2. Click , choose Run at start menu of Windows as shownIn Fig. 5.

Fig. 5

4. Click button. The main menu appears (as shown in Fig. 7).OKThis is for initialize alignment box.

Fig. 7

Fig. 6

Fig. 8

Note 1: If the connection is improper, you will see the following errormessage (as shown in Fig. 8) before entering the main menu.Meanwhile, the (read EDID) function will be disable. At this time,please make sure all cables are connected correctly and fixedly,and the procedure has been performed properly.

3. At the submenu, type the letter of your computer's hard disk drivefollowed by :EDID46 (for example, C:\EDID46, as shown in Fig. 6).

Note 2: During the loading, EDID46 will verify the EDID data which justloaded from monitor before proceed any further function, oncethe data structure of EDID can not be recognized, the followingerror message will appear on the screen as below. Pleaseconfirm following steps to avoid this message.1. The data structure of EDID was incorrect.2. DDC IC that you are trying to load data is empty.3. Wrong communication channel has set at configuration setupwindows.

4. Cables loosed or poor contact of connection.

1

Configuration and procedure

There are 2 chips contained OSD string, serial number..etcon the circuit board, main EEPROM which storage all factory settings,OSDstring. DDC IC which storage 128byte EDID data(serial number ..etc.).Following descirptions are the connection and procedure for Analog andmain EEPROM can be re-programmed along with Analog/Digital IC byenable factory memory data write function on the DDC program(EDID46.EXE).

Initialize alignment box

In order to avoid that monitor entering power saving mode dueto sync will cut off by alignment box, it is necessary to initializealignment box before running programming software(EDID46.EXE). Following steps show you the procedures andconnection.

Step 1: Supply 8-12V DC power source to the Alignment box byplugging a DC power cord or using batteries.

Step 2: Connecting printer cable and D-Sub cable of monitor as Fig. 4

Fig. 4

PC1=Power connector2=D-SUB connector

~~

Toprinterport(LTP1)

DC Power8-12 V

PrinterPort

ToMonitor

To PC

1 2

----->

----->

Fig. 9

150S5

Go to cover page61DDC Instructions 190P5

Step 3: Installation of EDID46.EXE

Method 1: Start on DDC program

Start Microsoft Windows.1. The Program"EDID46.EXE" in service manual cd-rom be copyed to C:\ .2. Click , choose Run at start menu of Windows as shownIn Fig. 5.

Fig. 5

4. Click button. The main menu appears (as shown in Fig. 7).OKThis is for initialize alignment box.

Fig. 7

Fig. 6

Fig. 8

Note 1: If the connection is improper, you will see the following errormessage (as shown in Fig. 8) before entering the main menu.Meanwhile, the (read EDID) function will be disable. At this time,please make sure all cables are connected correctly and fixedly,and the procedure has been performed properly.

3. At the submenu, type the letter of your computer's hard disk drivefollowed by :EDID46 (for example, C:\EDID46, as shown in Fig. 6).

Note 2: During the loading, EDID46 will verify the EDID data which justloaded from monitor before proceed any further function, oncethe data structure of EDID can not be recognized, the followingerror message will appear on the screen as below. Pleaseconfirm following steps to avoid this message.1. The data structure of EDID was incorrect.2. DDC IC that you are trying to load data is empty.3. Wrong communication channel has set at configuration setupwindows.

4. Cables loosed or poor contact of connection.

1

Configuration and procedure

There are 2 chips contained OSD string, serial number..etcon the circuit board, main EEPROM which storage all factory settings,OSDstring. DDC IC which storage 128byte EDID data(serial number ..etc.).Following descirptions are the connection and procedure for Analog andmain EEPROM can be re-programmed along with Analog/Digital IC byenable factory memory data write function on the DDC program(EDID46.EXE).

Initialize alignment box

In order to avoid that monitor entering power saving mode dueto sync will cut off by alignment box, it is necessary to initializealignment box before running programming software(EDID46.EXE). Following steps show you the procedures andconnection.

Step 1: Supply 8-12V DC power source to the Alignment box byplugging a DC power cord or using batteries.

Step 2: Connecting printer cable and D-Sub cable of monitor as Fig. 4

Fig. 4

PC1=Power connector2=D-SUB connector

~~

Toprinterport(LTP1)

DC Power8-12 V

PrinterPort

ToMonitor

To PC

1 2

----->

----->

Fig. 9

150S5

Go to cover page

61DDC Instructions 190P5

Step 3: Installation of EDID46.EXE

Method 1: Start on DDC program

Start Microsoft Windows.1. The Program"EDID46.EXE" in service manual cd-rom be copyed to C:\ .2. Click , choose Run at start menu of Windows as shownIn Fig. 5.

Fig. 5

4. Click button. The main menu appears (as shown in Fig. 7).OKThis is for initialize alignment box.

Fig. 7

Fig. 6

Fig. 8

Note 1: If the connection is improper, you will see the following errormessage (as shown in Fig. 8) before entering the main menu.Meanwhile, the (read EDID) function will be disable. At this time,please make sure all cables are connected correctly and fixedly,and the procedure has been performed properly.

3. At the submenu, type the letter of your computer's hard disk drivefollowed by :EDID46 (for example, C:\EDID46, as shown in Fig. 6).

Note 2: During the loading, EDID46 will verify the EDID data which justloaded from monitor before proceed any further function, oncethe data structure of EDID can not be recognized, the followingerror message will appear on the screen as below. Pleaseconfirm following steps to avoid this message.1. The data structure of EDID was incorrect.2. DDC IC that you are trying to load data is empty.3. Wrong communication channel has set at configuration setupwindows.

4. Cables loosed or poor contact of connection.

1

Configuration and procedure

There are 2 chips contained OSD string, serial number..etcon the circuit board, main EEPROM which storage all factory settings,OSDstring. DDC IC which storage 128byte EDID data(serial number ..etc.).Following descirptions are the connection and procedure for Analog andmain EEPROM can be re-programmed along with Analog/Digital IC byenable factory memory data write function on the DDC program(EDID46.EXE).

Initialize alignment box

In order to avoid that monitor entering power saving mode dueto sync will cut off by alignment box, it is necessary to initializealignment box before running programming software(EDID46.EXE). Following steps show you the procedures andconnection.

Step 1: Supply 8-12V DC power source to the Alignment box byplugging a DC power cord or using batteries.

Step 2: Connecting printer cable and D-Sub cable of monitor as Fig. 4

Fig. 4

PC1=Power connector2=D-SUB connector

~~

Toprinterport(LTP1)

DC Power8-12 V

PrinterPort

ToMonitor

To PC

1 2

----->

----->

Fig. 9

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61DDC Instructions 190P5

Step 3: Installation of EDID46.EXE

Method 1: Start on DDC program

Start Microsoft Windows.1. The Program"EDID46.EXE" in service manual cd-rom be copyed to C:\ .2. Click , choose Run at start menu of Windows as shownIn Fig. 5.

Fig. 5

4. Click button. The main menu appears (as shown in Fig. 7).OKThis is for initialize alignment box.

Fig. 7

Fig. 6

Fig. 8

Note 1: If the connection is improper, you will see the following errormessage (as shown in Fig. 8) before entering the main menu.Meanwhile, the (read EDID) function will be disable. At this time,please make sure all cables are connected correctly and fixedly,and the procedure has been performed properly.

3. At the submenu, type the letter of your computer's hard disk drivefollowed by :EDID46 (for example, C:\EDID46, as shown in Fig. 6).

Note 2: During the loading, EDID46 will verify the EDID data which justloaded from monitor before proceed any further function, oncethe data structure of EDID can not be recognized, the followingerror message will appear on the screen as below. Pleaseconfirm following steps to avoid this message.1. The data structure of EDID was incorrect.2. DDC IC that you are trying to load data is empty.3. Wrong communication channel has set at configuration setupwindows.

4. Cables loosed or poor contact of connection.

1

Configuration and procedure

There are 2 chips contained OSD string, serial number..etcon the circuit board, main EEPROM which storage all factory settings,OSDstring. DDC IC which storage 128byte EDID data(serial number ..etc.).Following descirptions are the connection and procedure for Analog andmain EEPROM can be re-programmed along with Analog/Digital IC byenable factory memory data write function on the DDC program(EDID46.EXE).

Initialize alignment box

In order to avoid that monitor entering power saving mode dueto sync will cut off by alignment box, it is necessary to initializealignment box before running programming software(EDID46.EXE). Following steps show you the procedures andconnection.

Step 1: Supply 8-12V DC power source to the Alignment box byplugging a DC power cord or using batteries.

Step 2: Connecting printer cable and D-Sub cable of monitor as Fig. 4

Fig. 4

PC1=Power connector2=D-SUB connector

~~

Toprinterport(LTP1)

DC Power8-12 V

PrinterPort

ToMonitor

To PC

1 2

----->

----->

Fig. 9

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15150S5FG14 150S5FG 15150S5FG14 150S5FG

Reprogramando IC DDCPasso 1: Depois de inicializar o ajuste de caixa, conecte todos os cabos como mostra a fig. 10

Passo 2: Carregando dados DDC do monitor 1. Clique o ícone na barra de ferramentas (fig. 11) para entrar em "Configuration Setup" como mostra a fig. 12.

2. Selecione DDC2B como o canal de comunicação. (fig. 12)

3. Clique botão OK para confirmar sua seleção.

4. Clique no ícone para ler os dados DDC EDID do monitor. Os códigos EDID serão mostrados na tela como a seguir. Os códigos EDID variam com o modelo.

Passo 3: Modificando dados DDC (verificar as versões de EDD, ano, mês)

1. Clique o ícone na barra de ferramentas, siga os passos de 1 a 9 como mostra a fig. 14. Aplicando DDC EDID46 melhora a seleção das funções e mudan- ças dos textos nos passos de 1 a 9.

Passo 4: Modificando dos dados DDC (número serial do monitor)1. Clique Next, fig. 15.

2. Clique Next, fig. 16.

26 150B3B LCD

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Loading DDC data from monitor

1. Click icon on the tools bar to bring up the Configuration Setup windows as Fig.7

2. Select the DDC2B as the communication channel. 3. Enable Factory memory data write function and fill in page address

F0 to the block.4. Disable Software DDC function.5. Click button to confirm your selection.

Note: The Factory memory data write function will allow EDID301 to rewrite serial numbers both Analog DDC IC and main EEPROM to make sure both S/N are exactly the same. You may confirm the function by checking the S/N at Product information of the OSD menu after restarting the monitor.

4. Click button. The main menu appears (as shown on Fig. 6).

Note:If the connection is improper, you will see the following error message before entering the main menu. Meanwhile, the(read EDID) function will be disable. At this time, please make sure all cables are connected correctly and fixedly, and the

DDC Instructions

6. Click icon to read DDC EDID data from monitor. The EDID codes will display on screen as following. (The EDID codes are depend on the model.) Meanwhile, The status bar will indicate 00% to 100% when reading.

Fig. 7

3. At the submenu, type the letter of your computer's floppy disk drive followed by :EDID301 (for example, A:\EDID301.exe,)

as shown in Fig. 5.

Fig. 5

Fig. 6

Command bar

Tools bar

Status bar

26 150B3B LCD

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Loading DDC data from monitor

1. Click icon on the tools bar to bring up the Configuration Setup windows as Fig.7

2. Select the DDC2B as the communication channel. 3. Enable Factory memory data write function and fill in page address

F0 to the block.4. Disable Software DDC function.5. Click button to confirm your selection.

Note: The Factory memory data write function will allow EDID301 to rewrite serial numbers both Analog DDC IC and main EEPROM to make sure both S/N are exactly the same. You may confirm the function by checking the S/N at Product information of the OSD menu after restarting the monitor.

4. Click button. The main menu appears (as shown on Fig. 6).

Note:If the connection is improper, you will see the following error message before entering the main menu. Meanwhile, the(read EDID) function will be disable. At this time, please make sure all cables are connected correctly and fixedly, and the

DDC Instructions

6. Click icon to read DDC EDID data from monitor. The EDID codes will display on screen as following. (The EDID codes are depend on the model.) Meanwhile, The status bar will indicate 00% to 100% when reading.

Fig. 7

3. At the submenu, type the letter of your computer's floppy disk drive followed by :EDID301 (for example, A:\EDID301.exe,)

as shown in Fig. 5.

Fig. 5

Fig. 6

Command bar

Tools bar

Status bar

27150B3B LCD

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Fig. 8

Load DDC data from file

1. Click from the tools bar.2. Select the file you want to open.3. Click . Button.

Write DDC data to monitor

1. Click icon from the tools bar to starting rewrite DDC data.2. Click for confirmation.

Save DDC data as a fileSometimes, you maybe need to save DDC data as a text file for using on other DDC chip. To save DDC data, follow the steps below:

1. Click icon on the tools bar and type a file name you like. The file format is ddc type which can be open by Microsoft WordPad.

2. Click button.

4. Now you can re-programming DDC data which you just loaded from a file, please be confirmed that model and serial number are correct and match with the monitor you are trying to re-write.

TY00 0105000001

Modify DDC data (Serial No.)

1. Click icon on the toosl bar.2. Click till the Step 7 of 9 window appears.3. Type the new Serial No. (for example, TY00 0105000001).4. Click till the last step window appears, then click to

exit the Step window.

Note: During the loading, EDID30 will verify the EDID data which just loaded from monitor before proceed any further function, once the data structure of EDID can not be recognized, the following error message will appear on the screen (Fig. 8). Please confirm following steps to avoid this message. 1. The data structure of EDID was incorrect. 2. DDC IC that you are trying to load data is empty. 3. Wrong communication channel has set at configuration setup Windows. 4. Cables loosed or poor contact of connection.

DDC Instructions62

Re-programming Analog DDC ICStep 1: After initialize alignment box, connecting all cables and

box as shown in Fig. 10

Fig. 11

Step 2: Read DDC data from monitor

1. Click icon as shown in Fig. 11 from the tool bar to bring upthe Channels "Configuration Setup" windows as shown in Fig. 12.

Step 3: Modify DDC data (verify EDID version, week, year)

1. Click (new function) icon from the tool bar, bring upStep 1 of 9 as shown in Fig. 14 .EDID46 DDC application provides the function selection andtext change (select & fill out) from Step 1 to Step 9.

Step 4: Modify DDC data (Monitor Serial No.)Next1. Click , bring up Fig. 15.

2. Click , bring up Fig. 16.Next3. Click OK button to confirm your selection.

4. Click icon (Read EDID function) to read DDC EDID data frommonitor. The EDID codes will display on screen as shown in Fig. 13.

Fig. 15

Fig. 16

2. Select the DDC2Bi as the communication channel.As shown in Fig. 12.

Fig. 13

Fig. 14

Fig. 10

1=Power connector2=D-SUB connector

~~

PC

Toprinterport(LTP1)

DC Power8-12V

PrinterPort

ToMonitor

To PC

1 2----->

----->

Don'tclosethisscreen.--->

Fig. 12

To PC Video port (D-sub) Select and fill out,If necessary.

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DDC Instructions62

Re-programming Analog DDC ICStep 1: After initialize alignment box, connecting all cables and

box as shown in Fig. 10

Fig. 11

Step 2: Read DDC data from monitor

1. Click icon as shown in Fig. 11 from the tool bar to bring upthe Channels "Configuration Setup" windows as shown in Fig. 12.

Step 3: Modify DDC data (verify EDID version, week, year)

1. Click (new function) icon from the tool bar, bring upStep 1 of 9 as shown in Fig. 14 .EDID46 DDC application provides the function selection andtext change (select & fill out) from Step 1 to Step 9.

Step 4: Modify DDC data (Monitor Serial No.)Next1. Click , bring up Fig. 15.

2. Click , bring up Fig. 16.Next3. Click OK button to confirm your selection.

4. Click icon (Read EDID function) to read DDC EDID data frommonitor. The EDID codes will display on screen as shown in Fig. 13.

Fig. 15

Fig. 16

2. Select the DDC2Bi as the communication channel.As shown in Fig. 12.

Fig. 13

Fig. 14

Fig. 10

1=Power connector2=D-SUB connector

~~

PC

Toprinterport(LTP1)

DC Power8-12V

PrinterPort

ToMonitor

To PC

1 2----->

----->

Don'tclosethisscreen.--->

Fig. 12

To PC Video port (D-sub) Select and fill out,If necessary.

150S5

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Re-programming Analog DDC ICStep 1: After initialize alignment box, connecting all cables and

box as shown in Fig. 10

Fig. 11

Step 2: Read DDC data from monitor

1. Click icon as shown in Fig. 11 from the tool bar to bring upthe Channels "Configuration Setup" windows as shown in Fig. 12.

Step 3: Modify DDC data (verify EDID version, week, year)

1. Click (new function) icon from the tool bar, bring upStep 1 of 9 as shown in Fig. 14 .EDID46 DDC application provides the function selection andtext change (select & fill out) from Step 1 to Step 9.

Step 4: Modify DDC data (Monitor Serial No.)Next1. Click , bring up Fig. 15.

2. Click , bring up Fig. 16.Next3. Click OK button to confirm your selection.

4. Click icon (Read EDID function) to read DDC EDID data frommonitor. The EDID codes will display on screen as shown in Fig. 13.

Fig. 15

Fig. 16

2. Select the DDC2Bi as the communication channel.As shown in Fig. 12.

Fig. 13

Fig. 14

Fig. 10

1=Power connector2=D-SUB connector

~~

PC

Toprinterport(LTP1)

DC Power8-12V

PrinterPort

ToMonitor

To PC

1 2----->

----->

Don'tclosethisscreen.--->

Fig. 12

To PC Video port (D-sub) Select and fill out,If necessary.

150S5

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DDC Instructions62

Re-programming Analog DDC ICStep 1: After initialize alignment box, connecting all cables and

box as shown in Fig. 10

Fig. 11

Step 2: Read DDC data from monitor

1. Click icon as shown in Fig. 11 from the tool bar to bring upthe Channels "Configuration Setup" windows as shown in Fig. 12.

Step 3: Modify DDC data (verify EDID version, week, year)

1. Click (new function) icon from the tool bar, bring upStep 1 of 9 as shown in Fig. 14 .EDID46 DDC application provides the function selection andtext change (select & fill out) from Step 1 to Step 9.

Step 4: Modify DDC data (Monitor Serial No.)Next1. Click , bring up Fig. 15.

2. Click , bring up Fig. 16.Next3. Click OK button to confirm your selection.

4. Click icon (Read EDID function) to read DDC EDID data frommonitor. The EDID codes will display on screen as shown in Fig. 13.

Fig. 15

Fig. 16

2. Select the DDC2Bi as the communication channel.As shown in Fig. 12.

Fig. 13

Fig. 14

Fig. 10

1=Power connector2=D-SUB connector

~~

PCToprinterport(LTP1)

DC Power8-12V

PrinterPort

ToMonitor

To PC

1 2----->

----->

Don'tclosethisscreen.--->

Fig. 12

To PC Video port (D-sub) Select and fill out,If necessary.

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DDC Instructions62

Re-programming Analog DDC ICStep 1: After initialize alignment box, connecting all cables and

box as shown in Fig. 10

Fig. 11

Step 2: Read DDC data from monitor

1. Click icon as shown in Fig. 11 from the tool bar to bring upthe Channels "Configuration Setup" windows as shown in Fig. 12.

Step 3: Modify DDC data (verify EDID version, week, year)

1. Click (new function) icon from the tool bar, bring upStep 1 of 9 as shown in Fig. 14 .EDID46 DDC application provides the function selection andtext change (select & fill out) from Step 1 to Step 9.

Step 4: Modify DDC data (Monitor Serial No.)Next1. Click , bring up Fig. 15.

2. Click , bring up Fig. 16.Next3. Click OK button to confirm your selection.

4. Click icon (Read EDID function) to read DDC EDID data frommonitor. The EDID codes will display on screen as shown in Fig. 13.

Fig. 15

Fig. 16

2. Select the DDC2Bi as the communication channel.As shown in Fig. 12.

Fig. 13

Fig. 14

Fig. 10

1=Power connector2=D-SUB connector

~~

PC

Toprinterport(LTP1)

DC Power8-12V

PrinterPort

ToMonitor

To PC

1 2----->

----->

Don'tclosethisscreen.--->

Fig. 12

To PC Video port (D-sub) Select and fill out,If necessary.

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DDC Instructions62

Re-programming Analog DDC ICStep 1: After initialize alignment box, connecting all cables and

box as shown in Fig. 10

Fig. 11

Step 2: Read DDC data from monitor

1. Click icon as shown in Fig. 11 from the tool bar to bring upthe Channels "Configuration Setup" windows as shown in Fig. 12.

Step 3: Modify DDC data (verify EDID version, week, year)

1. Click (new function) icon from the tool bar, bring upStep 1 of 9 as shown in Fig. 14 .EDID46 DDC application provides the function selection andtext change (select & fill out) from Step 1 to Step 9.

Step 4: Modify DDC data (Monitor Serial No.)Next1. Click , bring up Fig. 15.

2. Click , bring up Fig. 16.Next3. Click OK button to confirm your selection.

4. Click icon (Read EDID function) to read DDC EDID data frommonitor. The EDID codes will display on screen as shown in Fig. 13.

Fig. 15

Fig. 16

2. Select the DDC2Bi as the communication channel.As shown in Fig. 12.

Fig. 13

Fig. 14

Fig. 10

1=Power connector2=D-SUB connector

~~

PC

Toprinterport(LTP1)

DC Power8-12V

PrinterPort

ToMonitor

To PC

1 2----->

----->

Don'tclosethisscreen.--->

Fig. 12

To PC Video port (D-sub) Select and fill out,If necessary.

150S5

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DDC Instructions62

Re-programming Analog DDC ICStep 1: After initialize alignment box, connecting all cables and

box as shown in Fig. 10

Fig. 11

Step 2: Read DDC data from monitor

1. Click icon as shown in Fig. 11 from the tool bar to bring upthe Channels "Configuration Setup" windows as shown in Fig. 12.

Step 3: Modify DDC data (verify EDID version, week, year)

1. Click (new function) icon from the tool bar, bring upStep 1 of 9 as shown in Fig. 14 .EDID46 DDC application provides the function selection andtext change (select & fill out) from Step 1 to Step 9.

Step 4: Modify DDC data (Monitor Serial No.)Next1. Click , bring up Fig. 15.

2. Click , bring up Fig. 16.Next3. Click OK button to confirm your selection.

4. Click icon (Read EDID function) to read DDC EDID data frommonitor. The EDID codes will display on screen as shown in Fig. 13.

Fig. 15

Fig. 16

2. Select the DDC2Bi as the communication channel.As shown in Fig. 12.

Fig. 13

Fig. 14

Fig. 10

1=Power connector2=D-SUB connector

~~

PC

Toprinterport(LTP1)

DC Power8-12V

PrinterPort

ToMonitor

To PC

1 2----->

----->

Don'tclosethisscreen.--->

Fig. 12

To PC Video port (D-sub) Select and fill out,If necessary.

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17150S5FG16 150S5FG 17150S5FG16 150S5FG

3. Clique Next, fig. 17.

4. Clique Next, fig. 18.

5. Clique Next, fig. 19.

6. Clique Next, fig. 20.

7. Clique Next, fig. 21.

8. Clique Next, fig. 22. - O número de série pode ser preenchido acima ou ser mudado neste momento. - Clique Finish para sair.

DDC Instructions

Fig. 17

Fig. 21Fig. 18

Fig. 19

3. Click , bring up Fig. 17.Next

7. Click , bring up Fig. 21.Next4. Click , bring up Fig. 18.Next

5. Click , bring up Fig. 19.Next

Fig. 22

8. Click , bring up Fig. 22.Next- Serial number can be filled up or be changed at this moment.- Click to exit the Step window.Finish

Fig. 20

6. Click , bring up Fig. 20.Next

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63

DDC Instructions

Fig. 17

Fig. 21Fig. 18

Fig. 19

3. Click , bring up Fig. 17.Next

7. Click , bring up Fig. 21.Next4. Click , bring up Fig. 18.Next

5. Click , bring up Fig. 19.Next

Fig. 22

8. Click , bring up Fig. 22.Next- Serial number can be filled up or be changed at this moment.- Click to exit the Step window.Finish

Fig. 20

6. Click , bring up Fig. 20.Next

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63DDC Instructions

Fig. 17

Fig. 21Fig. 18

Fig. 19

3. Click , bring up Fig. 17.Next

7. Click , bring up Fig. 21.Next4. Click , bring up Fig. 18.Next

5. Click , bring up Fig. 19.Next

Fig. 22

8. Click , bring up Fig. 22.Next- Serial number can be filled up or be changed at this moment.- Click to exit the Step window.Finish

Fig. 20

6. Click , bring up Fig. 20.Next

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63

DDC Instructions

Fig. 17

Fig. 21Fig. 18

Fig. 19

3. Click , bring up Fig. 17.Next

7. Click , bring up Fig. 21.Next4. Click , bring up Fig. 18.Next

5. Click , bring up Fig. 19.Next

Fig. 22

8. Click , bring up Fig. 22.Next- Serial number can be filled up or be changed at this moment.- Click to exit the Step window.Finish

Fig. 20

6. Click , bring up Fig. 20.Next

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63DDC Instructions

Fig. 17

Fig. 21Fig. 18

Fig. 19

3. Click , bring up Fig. 17.Next

7. Click , bring up Fig. 21.Next4. Click , bring up Fig. 18.Next

5. Click , bring up Fig. 19.Next

Fig. 22

8. Click , bring up Fig. 22.Next- Serial number can be filled up or be changed at this moment.- Click to exit the Step window.Finish

Fig. 20

6. Click , bring up Fig. 20.Next

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63

DDC Instructions

Fig. 17

Fig. 21Fig. 18

Fig. 19

3. Click , bring up Fig. 17.Next

7. Click , bring up Fig. 21.Next4. Click , bring up Fig. 18.Next

5. Click , bring up Fig. 19.Next

Fig. 22

8. Click , bring up Fig. 22.Next- Serial number can be filled up or be changed at this moment.- Click to exit the Step window.Finish

Fig. 20

6. Click , bring up Fig. 20.Next

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63

17150S5FG16 150S5FG 17150S5FG16 150S5FG

Passo 6: Escrevendo dados DDC para o monitor

1. A configuração deve ser como a fig. 23. Pressione OK.

2. Acesso ao modo de Fábrica

Passo 1: Desligar o monitor.

Passo 2: (Pressione as teclas AUTO & OK ao mesmo tempo) + (Pressione a tecla até aparecer "Windows screen") => então solte todos as teclas.3. Clique ícone (escrever EDID) na barra de ferramentas para escrever os dados DDC. Aparecerá "Writing 0%~100%, ready" na barra progressiva lado inferior esquerdo.4. Desligue o monitor.5. Pressione a tecla OK e aparecerá menu principal OSD.6. Pressione a tecla DOWN para selecionar PRODUCTION INFOR MATION pressione a tecla OK para confirmar.7. A re-confirmação do número serial é feita.

Passo 7: Salvando dados DDC como um arquivo

As vezes, você pode necessitar salvar dados DDC como arquivo texto para usá-los em outro chip. Para salvar dados DDC, siga os passos abaixo:

1. Clique o ícone na barra de ferramentas e dê um nome ao arquivo (fig. 24). O tipo de arquivo é DDC e pode ser aberto no Word Pad. Usando o Word Pad,os textos dos dados DDC e tabe- las podem ser modificados. Se TEXTOS DDC & TABELAS HEX estão corretas, pode-se salva-los como arquivo .ddc.

27150B3B LCD

Go to cover pageDDC Instructions

Fig. 8

Load DDC data from file

1. Click from the tools bar.2. Select the file you want to open.3. Click . Button.

Write DDC data to monitor

1. Click icon from the tools bar to starting rewrite DDC data.2. Click for confirmation.

Save DDC data as a fileSometimes, you maybe need to save DDC data as a text file for using on other DDC chip. To save DDC data, follow the steps below:

1. Click icon on the tools bar and type a file name you like. The file format is ddc type which can be open by Microsoft WordPad.

2. Click button.

4. Now you can re-programming DDC data which you just loaded from a file, please be confirmed that model and serial number are correct and match with the monitor you are trying to re-write.

TY00 0105000001

Modify DDC data (Serial No.)

1. Click icon on the toosl bar.2. Click till the Step 7 of 9 window appears.3. Type the new Serial No. (for example, TY00 0105000001).4. Click till the last step window appears, then click to

exit the Step window.

Note: During the loading, EDID30 will verify the EDID data which just loaded from monitor before proceed any further function, once the data structure of EDID can not be recognized, the following error message will appear on the screen (Fig. 8). Please confirm following steps to avoid this message. 1. The data structure of EDID was incorrect. 2. DDC IC that you are trying to load data is empty. 3. Wrong communication channel has set at configuration setup Windows. 4. Cables loosed or poor contact of connection.

27150B3B LCD

Go to cover pageDDC Instructions

Fig. 8

Load DDC data from file

1. Click from the tools bar.2. Select the file you want to open.3. Click . Button.

Write DDC data to monitor

1. Click icon from the tools bar to starting rewrite DDC data.2. Click for confirmation.

Save DDC data as a fileSometimes, you maybe need to save DDC data as a text file for using on other DDC chip. To save DDC data, follow the steps below:

1. Click icon on the tools bar and type a file name you like. The file format is ddc type which can be open by Microsoft WordPad.

2. Click button.

4. Now you can re-programming DDC data which you just loaded from a file, please be confirmed that model and serial number are correct and match with the monitor you are trying to re-write.

TY00 0105000001

Modify DDC data (Serial No.)

1. Click icon on the toosl bar.2. Click till the Step 7 of 9 window appears.3. Type the new Serial No. (for example, TY00 0105000001).4. Click till the last step window appears, then click to

exit the Step window.

Note: During the loading, EDID30 will verify the EDID data which just loaded from monitor before proceed any further function, once the data structure of EDID can not be recognized, the following error message will appear on the screen (Fig. 8). Please confirm following steps to avoid this message. 1. The data structure of EDID was incorrect. 2. DDC IC that you are trying to load data is empty. 3. Wrong communication channel has set at configuration setup Windows. 4. Cables loosed or poor contact of connection.

Passo 8:Saindo do programa DDC

1. Clique o menu File e selecione Exit cmo mostra fig. 25.

X21DDC Instructions64

Step 7: Save DDC dataSometimes, you may need to save DDC data as a text file for usingin other IC chip. To save DDC data, follow the steps below:

1. Click (Save) icon (or click "file"-> "save as") from the tool barAnd give a file name as shown in Fig. 24.The file type is EDID46 file (*.ddc) which can be open in WordPad.By using WordPad, the texts of DDC data & table (128 bytes, hexcode) can be modified. If DDC TEXTS & HEX Table are completelycorrect, it can be saved as .ddc flie to re-load it into DDC IC for DDCData application.

Step 8: Exit DDC program

Pull down the File menu and select Exit as shown in Fig. 25.

Step 6: Write DDC data1. Configuration should be as Fig. 23. And press OK.

3. Click (Write EDID) icon from the tool bar to write DDC data.Bring up "Writing 0%~100%, ready" a progressing bar on the leftdown corner.

4. Turn off/on monitor

5. Press the OK button to bring up the OSD main manu.

6. Press the DOWN button to select PRODUCTION INFORMATIONpress the OK button to confirm our selection.

7. Re-confirm the serial Number is updated.

Fig. 23

Fig. 25

Fig. 24

150S5-DDC

C:\My documents\150S5-DDC

Edid46 Files

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2. Access Factory Mode

Step 2 :

[Push AUTO " " & OK " " buttons at the same time and hold

it ] + [Press power " " button untill comes out "Windows screen"

] => then release all buttons.

Step 1 :

Turn off monitor.

X21DDC Instructions64

Step 7: Save DDC dataSometimes, you may need to save DDC data as a text file for usingin other IC chip. To save DDC data, follow the steps below:

1. Click (Save) icon (or click "file"-> "save as") from the tool barAnd give a file name as shown in Fig. 24.The file type is EDID46 file (*.ddc) which can be open in WordPad.By using WordPad, the texts of DDC data & table (128 bytes, hexcode) can be modified. If DDC TEXTS & HEX Table are completelycorrect, it can be saved as .ddc flie to re-load it into DDC IC for DDCData application.

Step 8: Exit DDC program

Pull down the File menu and select Exit as shown in Fig. 25.

Step 6: Write DDC data1. Configuration should be as Fig. 23. And press OK.

3. Click (Write EDID) icon from the tool bar to write DDC data.Bring up "Writing 0%~100%, ready" a progressing bar on the leftdown corner.

4. Turn off/on monitor

5. Press the OK button to bring up the OSD main manu.

6. Press the DOWN button to select PRODUCTION INFORMATIONpress the OK button to confirm our selection.

7. Re-confirm the serial Number is updated.

Fig. 23

Fig. 25

Fig. 24

150S5-DDC

C:\My documents\150S5-DDC

Edid46 Files

150S5

Go to cover page

2. Access Factory Mode

Step 2 :

[Push AUTO " " & OK " " buttons at the same time and hold

it ] + [Press power " " button untill comes out "Windows screen"

] => then release all buttons.

Step 1 :

Turn off monitor.

X21DDC Instructions64

Step 7: Save DDC dataSometimes, you may need to save DDC data as a text file for usingin other IC chip. To save DDC data, follow the steps below:

1. Click (Save) icon (or click "file"-> "save as") from the tool barAnd give a file name as shown in Fig. 24.The file type is EDID46 file (*.ddc) which can be open in WordPad.By using WordPad, the texts of DDC data & table (128 bytes, hexcode) can be modified. If DDC TEXTS & HEX Table are completelycorrect, it can be saved as .ddc flie to re-load it into DDC IC for DDCData application.

Step 8: Exit DDC program

Pull down the File menu and select Exit as shown in Fig. 25.

Step 6: Write DDC data1. Configuration should be as Fig. 23. And press OK.

3. Click (Write EDID) icon from the tool bar to write DDC data.Bring up "Writing 0%~100%, ready" a progressing bar on the leftdown corner.

4. Turn off/on monitor

5. Press the OK button to bring up the OSD main manu.

6. Press the DOWN button to select PRODUCTION INFORMATIONpress the OK button to confirm our selection.

7. Re-confirm the serial Number is updated.

Fig. 23

Fig. 25

Fig. 24

150S5-DDC

C:\My documents\150S5-DDC

Edid46 Files

150S5

Go to cover page

2. Access Factory Mode

Step 2 :

[Push AUTO " " & OK " " buttons at the same time and hold

it ] + [Press power " " button untill comes out "Windows screen"

] => then release all buttons.

Step 1 :

Turn off monitor.

X21DDC Instructions64

Step 7: Save DDC dataSometimes, you may need to save DDC data as a text file for usingin other IC chip. To save DDC data, follow the steps below:

1. Click (Save) icon (or click "file"-> "save as") from the tool barAnd give a file name as shown in Fig. 24.The file type is EDID46 file (*.ddc) which can be open in WordPad.By using WordPad, the texts of DDC data & table (128 bytes, hexcode) can be modified. If DDC TEXTS & HEX Table are completelycorrect, it can be saved as .ddc flie to re-load it into DDC IC for DDCData application.

Step 8: Exit DDC program

Pull down the File menu and select Exit as shown in Fig. 25.

Step 6: Write DDC data1. Configuration should be as Fig. 23. And press OK.

3. Click (Write EDID) icon from the tool bar to write DDC data.Bring up "Writing 0%~100%, ready" a progressing bar on the leftdown corner.

4. Turn off/on monitor

5. Press the OK button to bring up the OSD main manu.

6. Press the DOWN button to select PRODUCTION INFORMATIONpress the OK button to confirm our selection.

7. Re-confirm the serial Number is updated.

Fig. 23

Fig. 25

Fig. 24

150S5-DDC

C:\My documents\150S5-DDC

Edid46 Files

150S5

Go to cover page

2. Access Factory Mode

Step 2 :

[Push AUTO " " & OK " " buttons at the same time and hold

it ] + [Press power " " button untill comes out "Windows screen"

] => then release all buttons.

Step 1 :

Turn off monitor.

19150S5FG18 150S5FG 19150S5FG18 150S5FG

DADOS DDC ANALÓGICO65DDC Data 150S5

Go to cover page

**********************************************************************

EDID log file

**********************************************************************

Vendor/Product Identification

ID Manufacturer Name : PHL

ID Product Code : 0820 (HEX.)

ID Serial Number : 1E240 (HEX.)

Week of Manufacture : 45

Year of Manufacture : 2003

EDID Version, Revision

Version : 1

Revision : 3

Basic Display Parameters/Features

Video Input Definition : Analog Video Input

0.700V/0.300V (1.00Vpp)

without Blank-to-Black Setup

Separate Sync

Composite Sync

Sync on Green

no Serration required

Maximum H Image Size : 30

Maximum V Image Size : 23

Display Transfer Characteristic : 2.2

(gamma)

Feature Support (DPMS) : Standby

Suspend

Active Off

Display Type : RGB color display

Preferred Timing Mode : Detailed timing block 1

Color Characteristics

Red X coordinate : 0.631

Red Y coordinate : 0.347

Green X coordinate : 0.309

Green Y coordinate : 0.583

Blue X coordinate : 0.15

Blue Y coordinate : 0.088

White X coordinate : 0.313

White Y coordinate : 0.329

Established Timings

Established Timings I : 720 x 400 @70Hz (IBM,VGA)

640 x 480 @60Hz (IBM,VGA)

640 x 480 @67Hz (Apple,Mac II)

640 x 480 @72Hz (VESA)

640 x 480 @75Hz (VESA)

800 x 600 @56Hz (VESA)

800 x 600 @60Hz (VESA)

Established Timings II:800 x 600 @72Hz (VESA)

800 x 600 @75Hz (VESA)

832 x 624 @75Hz (Apple,Mac II)

1024 x 768 @60Hz (VESA)

1024 x 768 @70Hz (VESA)

1024 x 768 @75Hz (VESA)

Manufacturer's timings :

Standard Timing Identification : Unused

Detailed Timing #1

Pixel Clock (MHz) : 65

H Active (pixels) : 1024

H Blanking (pixels) : 320

V Active (lines) : 768

V Blanking (lines) : 38

H Sync Offset (F Porch) (pixels): 24

H Sync Pulse Width (pixels) : 136

V Sync Offset (F Porch) (lines) : 3

V Sync Pulse Width (lines) : 6

H Image Size (mm) : 307

V Image Size (mm) : 230

H Border (pixels) : 0

V Border (lines) : 0

Flags : Non-interlaced

: Normal Display, No stereo

: Digital Separate sync.

: Negative Vertical Sync.

: Negative Horizontal Sync.

Monitor Descriptor #2

Monitor Range Limits

Min. Vt rate Hz : 56

Max. Vt rate Hz : 76

Min. Horiz. rate kHz : 30

Max. Horiz. rate kHz : 63

Max. Supported Pixel : 80

No secondary GTF timing formula supported.

Monitor Descriptor #3

Monitor Name : Philips 150S

Monitor Descriptor #4

Serial Number : TY 123456

Extension Flag : 0

Check sum : 4D (HEX.)

**********************************************************************

EDID data (128 bytes)

**********************************************************************

0: 00 1: ff 2: ff 3: ff 4: ff 5: ff 6: ff 7: 00

8: 41 9: 0c 10: 20 11: 08 12: 40 13: e2 14: 01 15: 00

16: 2d 17: 0d 18: 01 19: 03 20: 0e 21: 1e 22: 17 23: 78

24: ea 25: b1 26: a5 27: a1 28: 58 29: 4f 30: 95 31: 26

32: 16 33: 50 34: 54 35: bf 36: ee 37: 00 38: 01 39: 01

40: 01 41: 01 42: 01 43: 01 44: 01 45: 01 46: 01 47: 01

48: 01 49: 01 50: 01 51: 01 52: 01 53: 01 54: 64 55: 19

56: 00 57: 40 58: 41 59: 00 60: 26 61: 30 62: 18 63: 88

64: 36 65: 00 66: 33 67: e6 68: 10 69: 00 70: 00 71: 18

72: 00 73: 00 74: 00 75: fd 76: 00 77: 38 78: 4c 79: 1e

80: 3f 81: 08 82: 00 83: 0a 84: 20 85: 20 86: 20 87: 20

88: 20 89: 20 90: 00 91: 00 92: 00 93: fc 94: 00 95: 50

96: 68 97: 69 98: 6c 99: 69 100: 70 101: 73 102: 20 103: 31

104: 35 105: 30 106: 53 107: 0a 108: 00 109: 00 110: 00 111: ff

112: 00 113: 54 114: 59 115: 20 116: 31 117: 32 118: 33 119: 34

120: 35 121: 36 122: 0a 123: 20 124: 20 125: 20 126: 00 127: 4d

19150S5FG18 150S5FG 19150S5FG18 150S5FG

TROUBLESHOOTING

TROUBLESHOOTING

Chave de controle Frontalnão funciona

Cheque

Painel controle Frontal(Key & SW)

Sim

ChequeSinais dos conecto- res

Cheque painelPrincipal

Sim

Sem tela

Cheque cabo de força

& LED do monitor

ChequePainel Power12V/3.3V DC

Sim

Chequeinterface entrada

sinais de vídeo

Cheque painelinversor

NãoFonte de vídeo

Sim

Chequepainel Inversor

625~765Vrms com carregameto

Não

OKCheque lâmpadafluorescente

Cheque painel prin-cipal

Não

21150S5FG20 150S5FG 21150S5FG20 150S5FG

ENTRADA AC

Painel alimenta-ção power

Painel principal

625~765Vrms

Painel inversor

LâmpadaFluorescente Painel LCD

3.3V DC12V DC

12V DC

Sem alimentação(indicador desligado)

Cheque12V/3.3V DC

Chequepainel de con- trole

Não

Sim

Sim

Cheque contro-le dos cabos

Cheque PainelPrincipal

Cheque PainelPrincipal

21150S5FG20 150S5FG 21150S5FG20 150S5FG

Brilho Ruim

ChequeSaída painel inversor

625~765Vrms

Não

Sim

Painel inversorruim

Cheque lâmpadafluorescente

Imagem ruim

Chequesinais de vídeo, fh/fv

Sim

Sim

Cheque painel LCD

Não

Não

Cheque painel LCD

Chequetodos conectores e

cabos LVDS

Não

Cheque painel principal

Cheque componen- tes com solda fria

PB150S5FG22 150S5FG

DVD703 /XX

ANOTAÇÕES:

23150S5FG

DIAGRAMA EM BLOCOS

16 190P5 Function Block Diagram150S5

Go to cover page

24 150S5FG

ESQUEMA ELÉTRICO

17Schematic diagram(Scaler) 150S5

Go to cover page

C

13

134

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2217 D22218 F2

2219 F22221 E42222 E5

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2216 223886715331330p

2217 223886715331330p

2226 31980163129012p

100n

223878615649100n

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Allrightsreserved.Reproductioninwholeorinparts

12p

3201

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6209 933215370215BAV99

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3217 D23221 B2

3222 B23223 E13224 E2

3225 E13226 E2

3227 E23228 E23229 F4

3230 C33231 D43232 D5

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3235 E43236 E53237 E4

3238 E43239 C3

3241 E43242 E33243 D4

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5202 E36201 B46203 B5

6204 B56205 B6

6206 B76207 B86208 B8

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I210 B2I211 C3I212 C1

I213 C2I216 D5I217 E5

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6207 933215370215BAV99

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6204 933215370215BAV99

6205 933215370215BAV99

2228 31980163129012p

2230 319801631290

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EXCEPT 1203 WERE CHIP COMPONENTS.

1%

2

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[R]

Ref Des Reserved

2201 223878615649100n

2202 223878615649

[R]

6206 933215370215

+12VCC

I217

I218

22K

3230

75R

3229

47K

I221

3237

I211

3243 0R

33p

2218

2234

100n

6221

BAS32L

6208

BAV99

222710n

2219

10n

2225

I201

220p

5202 100MHZ 3238

3241

10K

4K7

I123

I216

75R

2K2

3228

3217

100R

3235

3227

2K2

100R3226

3222

22K

I120

2233

100n

I210

100R

3223

I213

3245 0R

0R3244

DATE

NAME

1

SUPERS.

CLASS_NO

CHN SETNAME XH4

4 1

******** 2003-11-29 KONINKLIJKE PHILIPS ELECTRONICS N.V. 2000

--------

TYT12-

Jerry Chen/Joss Hung

2003-11-29 3

13010 *** A3

DSUB

150S5FG/003138 158 5762

CHECKMGr

+3.3V

100R

3232

3231

10R

1K

3242

2E1

E23

SCL6

5

SDA

8VCC

4 VSSWC_

7

3225

100R

10n2222

7202M24C02

1E0

33R

3234

6220

BAT42W

22K

3221

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2229

9

10n

1

10

11

12

13

14

15

2

3

4

5

6

7

8

1203

900-261521-02-A

16

17100n

2201

2202

100n

I220

3216

100R

10K

100R3224

75R

3233

3239

2221

100R

3236

12p

2228

100n

BAV99

6205

2216

BAV99

6207

2230

12p

330p

6209

3201

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BAV99

6204

BAV99330p

2217

BZX84-C5V1

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BAV99 BAV99

6206

2226

12p

6203

100n

2203

VSIN

VIN

VGA_CAB

B

R

HSIN

ASCL

ASDA

DDC_WP

DDCSDADDCSCLVINBRG HIN

SOG

VGA_DETECTOR

BINISPSCL

ISPSDA GDDCSDA

DDCSCL

HIN

GIN

RIN

25150S5FG

ESQUEMA ELÉTRICO - PAINEL SCALER

18 190P5 Schematic Diagram (Scaler)150S5

Go to cover page

C

319802131030

gedeeltelijk,isniettoegestaandanmetschriftelijke

42

6 13

EXCEPT 1303,7302 WERE CHIP COMPONENTS.

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4K73198021347203323

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3310

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I445 E5I446 E3I470 A4

I423 C5I424 C2

I425 C9I426 D3I427 D5

I428 D2I429 D3

I430 D2I431 D3I432 D2

I433 D3I434 D2

10K

3198021310303354

4K7

319802134720

[R]

D

[R]

I435 D5I436 D3I437 D2

I438 D5I439 D5

I440 D3I441 D5I442 E5

Allerechtenvoorbehouden.Verveelvuldiging,geheelof

I405 B5I406 B3

I407 B8I408 B3I409 C5

I410 C3I411 C5

I412 C3I413 C5I414 C3

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I417 C9I418 C5I419 C3

I420 C2I421 C9

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3351 D13352 D1

3353 D23354 D2

5302 A46301 E27301 C4

7302 A9I401 A8

I402 A8I403 B8I404 B3

F

E

B

6

PB: 59361

Allrightsreserved.Reproductioninwholeorinparts

SCALER BOARD

C

toestemmingvandeauteursrechthebbende.

5

93

3334 C3

3335 C33336 C5

3337 C33338 C53339 D3

3340 D53341 A8

3342 D33343 D33344 D5

3345 D3

31

8

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A

13

3346 D33347 E2

3348 E23349 E2

3350 D1

3320 A23321 A2

3322 B53323 B53324 B5

3325 B53326 B6

3327 B33328 C33329 C5

3330 C33331 C5

97

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3332 C33333 C5

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Ref Des Reserved

1 2 3 4 5 6 7

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2309 E62310 E32313 A7

3302 A53303 D2

3304 D23305 D23306 A8

3307 A83308 B83309 B8

3310 B73311 E1

3312 E13314 E53319 D5

A

B

C

D

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1303 C91304 B2

2304 A42305 A32306 B2

2307 B32308 D8

[R] [R]

111

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2238786156492308

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1303

F

D

+3.3V_CPU

[R]

G

8 9

1 2 3 4 5 6 7 8 9

A

B

C

D

E

10K

3351

10K

3303

100R 3346

10K

3305

3343100RI430

3345100R

+3.3V

2307

22p

2309

100R 3334

I401

100n

100n

I470

3324

4K7

33264K7

2304

4K7

3325

I421

+3.3V_CPU

I428

100R

I420

10K

3341

3335

5302

10K

3311

3308

100R

100MHZ

10K

3321

1M

SMD-491304

14M31818HZ

3319

100R

3344

3340100R

4K7

I434

2313

100n

3306

+3.3V_CPU

I417

3352

10K

10K3314

100R 3342

100R 3339

I444

100R 3338

E01

E12

E23

SCL6

SDA5

VCC8

VSS4

WC7

3347100R

100R 3332

M24C16-WBN6

7302

10u

100R 3330

PD01

PD135

PD234

PD331

PD430

PD529

PD612

PE018

PE119

RSTB10

VCC

44

2305

23

PB1_ADC124

PB2_ADC2_INTE014

PB3_ADC3_INTE115

PB4*_SCL0*25

PB5*_SDA0*26

PB6*_SCL1*27

PB7*_SDA1*28

PC0*43

PC1*42

PC241

PC3_PWM040

PC4_PWM139

PC538

PC637

PC736

OSCI21

OSCO20

P30_RXD11

P31_TXD13

P34_T016

P35_T117

PA0_PWM22

PA1_PWM33

PA2_PWM44

PA3_PWM55

PA4*_PWM6*6

PA5*_PWM7*7

PA6*_PWM8*8

PA7*_PWM9*9

PB0_ADC0

NT68F633L

7301

GND

22

NC032

NC133

I405

+3.3V

2

******** 2003-11-29 KONINKLIJKE PHILIPS ELECTRONICS N.V. 2000

--------

TYT12-

Jerry Chen/Joss Hung

2003-11-29 3

I429

A3

MICRO

150S5FG/003138 158 5762

CHECKMGr DATE

NAME

1

SUPERS.

CLASS_NO

CHN SETNAME XH4

4

10K

3350

13010 ***

100R 3333I414

100R 3331

0R

3322

I426

I413

I411

4K7

3323

+3.3V_CPU

+3.3V_CPU

+3.3V_CPU

I402

I433

I422

I419

I442

3337100R

3304

10K

I415

I435

I425

10K

3353

100R 3348

I416

I443

I424

I418

3312

10K

I440 I439

I436

I441

100R

3309

I438

I412

I427

22p

2306

I423

3320

20R

I408

3

4

I410

I406

JFE63173

1303

1

2

6301

BAS32L

I409

470n

I404

100R

10K

3310

2310

I407

3329

3302

I431

100R 3336

10K

3328

4K7

3307

3327

100n

2308

100R

I432

100R

I445

3349

10K

3354

I437

I446

47K

ISPSDA

VGA_CAB

I403

LED_R

LED_G

AUDIO_STANDBY

WRN

ADDR3

PANEL_IDX

MEM_REG

IICSDA

IICSCL

KEY2

K_PWR

ADDR2

ADDR5

ADDR4

ISPSCL

24C16_WP

ADDR7

ADDR6

24C16_WP

VGA_DETECTOR

RST

DDC_WPADDR1

ADDR0

TXD

RXD

TCLK

RXD

TXD

IICSCL

IICSDA

HCLK/ALE

+3.3V_CPU

RESET

KEY1

RDN

26 150S5FG

ESQUEMA ELÉTRICO - PAINEL SCALER

19Schematic diagram(Scaler) 150S5

Go to cover page

C

GND

2

G[R]

0R2322702960013412

I106 B2

I110 C2

I111 D2

I112 E2

I113 F2

I449 B4

I450 B4

I451 B4

I453 C4

I462 B8

I468 E7

B

C

5444 F1

5445 B1

5446 C1

5449 B8

7442 D1

7443 C6

F084 E9

F168 C9

F169 C9

F170 C9

F171 C9

F172 C9

F173 C9

F174 C9

F175 D9

F176 D9

F177 D9

F178 D9

F179 D9

F180 D9

F181 D9

F182 E9

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F183 E9

F184 E9

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I101 B2

I102 B4

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3402 B3

3403 C3

3404 C4

3405 C4

3408 E7

3409 E7

3410 C4

3411 E8

Ref Des Reserved

3411

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3412 E9

5440 B1

5441 E1

2446 D2

2448 C1

2449 C2

2450 B1

2451 B2

2452 D1

2453 D1

2454 E1

2455 E1

2457 B1

2458 B1

2459 B1

2460 B1

2463 C1

2464 C1

2465 C1

2466 C1

2468 C1

2469 C9

2477 C8

2482 F1

2483 F1

4

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Allrightsreserved.Reproductioninwholeorinparts

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A

3

PB: 59361

E

A

Allerechtenvoorbehouden.Verveelvuldiging,geheelof

I

1 2 3 4 5 6 7 8 9

1 2 3 4 5 6 7 8 9

B

C

I

H

9

J

1

B

C

D

E

F

1412 E9

2401 E1

2402 E1

2403 E2

2408 F1

2409 F1

2414 B4

2415 B4

2416 B4

2417 E7

2442 C1

2443 C1

2444 C1

2445 D1

H0R232270296001

4

gedeeltelijk,isniettoegestaandanmetschriftelijke

5

J

8

D

SB: 59351 x 9

5

11

F175

F172

F171

100n

2402

2444 F168

F173

100n

2452

100n

F176

+1.8V

3.3V_LVDS

100n

2401

2482

10u

F169

100MHZ

5441

8

9

F177

F174

11

12

13

14

15

16

17

18

19

2

20

3

4

5

6

7

63622

1412

21 22

1

10

2451

100n

100n

2465

100n

STI_TM2

TCLK111

VBUFS_RPLL107

VCO_LV3

104

VDD_ADC_1.8

106

VDD_RPLL_1.8

VSS_RPLL

105

VSYNC86

WRn119

XTAL110

2464

69

RESERVED428

RESERVED529

RESERVED630

RESERVED731

RESERVED832

RESERVED933

RESET_OUT2

1RESETn

RVDD0_3.3

22

RVDD1_3.3

41

RVDD2_3.3

61

RVDD3_3.3

75

RVDD4_3.3

112

SOG_MCSS92

83

STI_TM1

84

48

RESERVED1951

RESERVED226

RESERVED2054

RESERVED2155

RESERVED2256

RESERVED2357

RESERVED2458

RESERVED2559

RESERVED2664

RESERVED2765

RESERVED2866

RESERVED2967

RESERVED327

RESERVED3068

RESERVED31

77

PPWR 74

RDn120

97RED+

98RED-

24RESERVED0

25RESERVED1

RESERVED1034

RESERVED1137

RESERVED1238

RESERVED1339

RESERVED1444

RESERVED1545

RESERVED1646

RESERVED1747

RESERVED18

116

GPIO4_MEM_REG117

GPIO5_AD7121

GPIO6_AD6122

GPIO7_AD5123

GPIO860

GPIO963

93GREEN+

94GREEN-

HCLK_ALE118

HDATA0_AD0_HP0128

HDATA1_AD1_HP1127

126HDATA2_AD2_OSC_SEL

125HDATA3_AD3

124HFS_AD4

HSYNC85

PBIAS

CVDD2_1.8

49

CVDD3_1.8

81

CVDD4_1.8

114

73DCLK

70DEN

71DHS

72DVS

GND_ADC

103

80GPIO0_PWM0

GPIO1052

GPIO1153

GPIO1240

GPIO1343

GPIO1_PWM17978

GPIO2

GPIO3_IRQn

CH3N_LV7

CH3P_LV6

CHKN_LV9

CHKP_LV8

CRVSS0

21

CRVSS1

23

CRVSS2

36

CRVSS3

42

CRVSS4

50

CRVSS5

62

CRVSS6

76

CRVSS7

82

CRVSS8

113

CRVSS9

115

CVDD0_1.8

20

CVDD1_1.8

35

AVDD_OUT_LV0_3.3

4

AVDD_OUT_LV1_3.3

17

AVDD_RED_3.3

96

AVDD_RPLL_3.3

109

AVSS_LV

18

AVSS_OUT_LV0_3.3

5

AVSS_OUT_LV1_3.3

16

108AVSS_RPLL

BLUE+88

89BLUE-

CH0N_LV15

CH0P_LV14

CH1N_LV13

CH1P_LV12

CH2N_LV11

CH2P_LV10

gmZAN3-L

7443

101ADC_TEST

102

AGND_ADC

90

AGND_BLUE

95

AGND_GREEN

99

AGND_RED

100

AVDD_ADC_3.3

AVDD_BLUE_3.3

87

AVDD_GREEN_3.3

91

AVDD_LV_3.3

19

F170

3

******** 2003-11-29 KONINKLIJKE PHILIPS ELECTRONICS N.V. 2000

--------

TYT12-

Jerry Chen/Joss Hung

2003-11-29 3

13010 *** A3

150S5FG/003138 158 5762

CHECK

Scaler

10u

2463

MGr DATE

NAME

1

SUPERS.

CLASS_NO

CHN SETNAME XH4

4

2454

100n

100n

2469

0R

3412

F183

1M3410

F182

F181

10u

2460

F179

F180

F178

3411

0R

2408

100n10u

2483

1.8V_AVDD

10K3408

10u

2446

3.3V_AVDD

2417

100n

1

ADJ

4

MT13

Vin

2

Vout

1.8V_DVDD

7442

LD1117AS18TR

I462

100n

F184

I453

2403

2416

100R3404

3403120R 10n

241510n

2409

100n

120R3402

10u

2477

2457

100n

2448

100n

I450

3405100R

I449

2459

100n

5444

100MHZ

100n

2453

100MHZ

5440

47R

3.3V_DVDD

P+3.3V

3409

3401120R

5445

100MHZ

I468

100n

2449

2468

10u 2443

100n

100n

2450

100MHZ

5446

2445

10u

F190

100n

2442

100n

2458

2414

I451

10n

I110

I111

I102

I106

I112

I101

I113

100n

2466

+3.3V

F084

2455

100n

HSIN

VSIN

BRIGHTNESS

100MHZ

5449

TXOC-

TXOC+

TXO3-

TXO3+

+1.8V

3.3V_AVDD

3.3V_LVDS

1.8V_AVDD

1.8V_DVDD

TCLK

RST

SOG

VOLUME

TXO0-

TXO0+

TXO1-

TXO1+

TXO2-

TXO2+

TXOC-

TXOC+

TXO3-

TXO3+

GIN

RIN

BIN

3.3V_DVDD

ADDR6

ADDR5

ADDR7

ADDR2

ADDR1

ADDR4

ADDR3

RDN

HCLK/ALE

ADDR0

WRN

BL_CONTROL

PANEL_PWR

MEM_REG

TXO0-

TXO0+

TXO1-

TXO1+

TXO2-

TXO2+

27150S5FG

ESQUEMA ELÉTRICO - PAINEL SCALER20 190P5 Schematic diagram(Scaler)150S5

Go to cover page

C

8

8 13

toestemmingvandeauteursrechthebbende.

C

I590 F5

[R]

A

H

3

E

12

G

F070 C1F072 C1

F073 C1I114 C8I115 B8

I574 D3I575 D3

I578 D3I579 E3I580 E3

I582 E3I583 F3

I589 E5

F

A

6

SB: 59351 x 9

Allerechtenvoorbehouden.Verveelvuldiging,geheelof

J

7

G

gedeeltelijk,isniettoegestaandanmetschriftelijke

Allrightsreserved.Reproductioninwholeorinparts

F054 D1F055 D1

F057 D1F058 E1F060 B1

F061 E1F062 E1F063 E1

F064 B1F065 B1

F066 B1F067 B1F068 B1

owner.

isprohibitedwithoutthewrittenconsentofthecopyright

B

1 2

D

12

EXCEPT 1502,1503,1505 WERE CHIP COMPONENTS.

SCALER BOARD

11

D3533 D9

3537 C85501 B2

5503 C27501 E57502 F5

7505 B77506 B9

F051 D1F052 D1F053 E1

10 11

J

I

H

1

E

2

B

Reserved

1503 313816872071JFE6339V

3502 D33504 D33505 E3

3506 E83507 E8

3508 E33509 F33510 E3

3512 B73527 E6

3528 F63532 E8

4 5

TOPOWERBD

TOCONTROLBD1912

9

96

C

PB: 59361

5

1503 D11505 D1

2501 C22502 C2

2505 C22506 C22509 C8

2516 D42518 D4

2522 E42524 E42530 E4

2532 F42533 E42534 C3

2536 C33501 D3

3 13

7

I

5 6 7 8 9

1 2 3 4 5 6 7 8 9

A

B

C

D

E

F

A

B

C

D

E

F

1502 B1

F

4

10

I580

Ref Des

1 2 3 4

2518

1n

2505

100n

F061

F073

F072

F068

F070

1

10

11

2

3

4

5

6

7

8

9

JFE6339V

1503

10K

3533

F063

I115

F060

100R

3510

10K

3528

I589

I590

5501

47u

2534

100n

2502100MHZ

3537

47K

5

6

7

8

9

+3.3V

F058

1502

JFE6339V

1

10

11

2

3

4

F062 10K3507

F067

F053

+3.3V

I575

1n

2524

F064

2530

1n

F066

100R

3502

I574

F054

7505

MUN2211J

+3.3V

10n

2509

I582

+3.3V

F057

1

3

2

3506 10K

2532

1n

BC857C

7502

2

F065

47K

7501

BC857C 1

3

F052

3512

F051

1nI579

2522

2506

100n

2533

1n

I5833509

220R

100R

2501

100n

3501

100R

3505

CHN SETNAME XH4

4 4

2003-11-29 KONINKLIJKE PHILIPS ELECTRONICS N.V. 2000

--------

TYT12-

Jerry Chen/Joss Hung

2003-11-29 3

130 A3

CONNECTOR

150S5FG/003138 158 5762

CHECK DATE

NAME

1

SUPERS.

CLASS_NO

47u

2536

10K3532

10K

I114

1

2

3

4

5

6

7 3527

1505

63387

220R

3508

G4 5

S

+3.3V

100R

3504

SI5441DC

7506

D11

D22

D33

D46

7D5

8D6

100MHZ

5503

F0551n

2516

PANEL_IDX

+12VCC

I578

LED_R

LED_G

PANEL_PWR

KEY2

AUDIO_STANDBY

VOLUME

KEY1

K_PWR

P+3.3V

+3.3V

BL_CONTROL

BRIGHTNESS

+12VCC

KEY1

K_PWR

KEY2

28 150S5FG

GUIA DE PLACA DO PAINEL SCALER - COMPONENTES

29150S5FG

GUIA DE PLACA DO PAINEL SCALER - COBRE

30 150S5FG

ESQUEMA ELÉTRICO - PAINEL CONTROLE23Schematic diagram(Control) 150S5

Go to cover page

C

5

SB: 59411 x16

Control Board

E

5

toestemmingvandeauteursrechthebbende.

Allrightsreserved.Reproductioninwholeorinparts

isprohibitedwithoutthewrittenconsentofthecopyright

3

1 2

STANDS FOR CHIP COMPONENTS.

owner.

1903 D3

1904 D3

1905 E3

3904 D2

3905 D2

3906 E2

6911 A3

F001 B1

F002 B1

F003 B1

E

F

1901 C3

1902 C3

1906 E3

1907 B3

A

TOSCALERBOARD1505

C

B

J

I

H

1

gedeeltelijk,isniettoegestaandanmetschriftelijke

F006 C1

OSD

UP

DOWN

RIGHT

LEFT

AUTO

PB: 59421

1 2

C

D

E

3

A

6

Allerechtenvoorbehouden.Verveelvuldiging,geheelof

B

A

B

6

D

E

F

G

D

3902 C2

3903 C2

3901 B2

F

G

H

I

J

32

C

D

4321

4

F004 C1

F005 C1

F

A

B

C

1912 B1

1906

SKHHAR2520

12

344

SKHHAR2520

1905

12

342

34

SKHHAR2520

1904

12

312

34

SKHHAR2520

1903

112

34

1902

SKHHAR2520

SKHHAR2520

1907

12

34

1901

SKHHAR2520

L-3WYGW-8.03LSF5/F

6911

G

3

K 2

Y

1

XH4SETNAMECHN

CLASS_NO

SUPERS.

1

NAME

DATECHECK

3138 158 5763150S5FG/00

CONTROL BOARD

A4130

32003-11-29

Jerry Chen

TYT12-

--------

KONINKLIJKE PHILIPS ELECTRONICS N.V. 20002003-11-29

11

3904

47K

3901

47K

3902

10K

3906

1K

3905

10K

3903

1K

F004

F005

F003

F001

F002

1912

JFE6336H

1

2

3

4

5

6

7

K_PWR

LED_R

LED_G

F006

31150S5FG

ESQUEMA ELÉTRICO DO INVERSOR

32 150S5FG

ESQUEMA ELÉTRICO PAINEL ADAPTADOR

AUDIO

P6KE10A

T2AH/250V

JUMP

3

1 2

4

33

1 1

2 2

8 84 4

5

5

66

7

7

3

1 2

4

33

1 1

2 2

8 84 4

5

5

66

7

7

EFD25

10mm

33150S5FG

VISTA EXPLODIDA

26 Exploded View150S5

Go to cover page

30

313815756071

BEZELASSY(T)

1050

823827714731

TFT-LCDMODLM150X08-A4

823827714721

TFT-LCDMODCLAA150XP01

1051

313815857621-LG

SCALERASSY

313815858881-CPT

SCALERASSY

1052

823827714601

LIPS(AI-0067)

1053

313815857631

CONTROLASSY

1160

313815858901

MAINFRAME+WIREASSY

40

313815756081

BACKCOVERASSY

50

313815756061

FOLDABLEBASE(T)

34 150S5FG

DVD703 /XX

ANOTAÇÕES:

DVD703 /XX

ANOTAÇÕES: