Драйверы
Для выполнения подключения некоторых устройств к компьютеру может потребоваться драйвер. На этой вкладке вы найдете соответствующие драйверы для своего устройства или, в случае отсутствия драйверов, описание совместимости устройства с каждой операционной системой.
Полезная информация. Доступ к программному обеспечению, руководствам и другим материалам можно получить с помощью вкладок, расположенных выше.
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Программное обеспечение
Программное обеспечение загружать необязательно, но оно обеспечивает дополнительные функции и позволяет максимально эффективно пользоваться возможностями устройства. На этой вкладке можно просмотреть и загрузить доступное программное обеспечение для вашего устройства.
Программное обеспечение
Программное обеспечение загружать необязательно, но оно обеспечивает дополнительные функции и позволяет максимально эффективно пользоваться возможностями устройства. На этой вкладке можно просмотреть и загрузить доступное программное обеспечение для вашего устройства.
Операционная система Обнаруженная операционная система
Руководства пользователя
Руководства для вашего устройства или программного обеспечения перечислены ниже.
Приложения и функции
На этой вкладке можно посмотреть доступные приложения и функции, совместимые с вашим устройством.
Встроенное ПО
Встроенное ПО — это постоянное программное обеспечение, установленное на устройстве и обеспечивающее его корректную работу. Canon может периодически выпускать обновления для этого встроенного ПО, и если обновление доступно, его можно загрузить ниже.
FAQs
На этой вкладке вы найдете ответы на часто задаваемые вопросы и другую полезную информацию, которая поможет вам в решении вопросов и проблем.
Важная информация
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Коды ошибок
Код ошибки или сообщение об ошибке может появиться на устройстве по различным причинам. С помощью поля поиска можно найти полезную информацию о конкретном коде ошибки, где будут указаны причина ошибки и необходимые действия по ее устранению.
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Software is an optional download that enables advanced functionality and helps you to get the most out of your product. On this tab, you can view and download the available software for your product.
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инструкцияCanon Imagerunner 1133A
Starter Guide
English
Read this guide fi rst.
Please read this guide before operating this product.
After you fi nish reading this guide, store it in a safe place for future reference.
Guide de démarrage
Français
Veuillez d’abord lire ce guide.
Lisez ce guide avant d’utiliser ce produit.
Après avoir pris connaissance de son contenu, conservez-le dans un endroit sûr pour pouvoir le consulter en cas de besoin.
Guida all’avvio
Italiano
Leggere questa guida.
Leggere questa guida prima di iniziare ad utilizzare il prodotto.
Terminata la lettura, conservare la guida in un luogo sicuro per eventuali consultazioni.
Handbuch für Starter
Deutsch
Bitte lesen Sie dieses Handbuch zuerst.
Bitte lesen Sie dieses Handbuch, bevor Sie mit dem Produkt arbeiten.
Nachdem Sie das Handbuch gelesen haben, bewahren Sie es zum Nachschlagen an einem sicheren Ort auf.
Guía de inicio
Español
Lea esta guía primero.
Por favor, lea esta guía antes de usar este producto.
Después de leer esta guía, guárdela en un lugar seguro para posteriores consultas.
Посмотреть инструкция для Canon Imagerunner 1133A бесплатно. Руководство относится к категории принтеры, 2 человек(а) дали ему среднюю оценку 7.6. Руководство доступно на следующих языках: английский. У вас есть вопрос о Canon Imagerunner 1133A или вам нужна помощь? Задайте свой вопрос здесь
Главная
| Canon | |
| Imagerunner 1133A | |
| принтер | |
| английский | |
| Руководство пользователя (PDF) |
Не можете найти ответ на свой вопрос в руководстве? Вы можете найти ответ на свой вопрос ниже, в разделе часто задаваемых вопросов о Canon Imagerunner 1133A.
Как удалить замятую бумагу из принтера?
Лучше всего аккуратно вытянуть бумагу из принтера. Выключите принтер и убедитесь, что печатающий узел не нависает над бумагой и что в принтере не осталось бумаги.
Почему после установки оригинального картриджа принтер не работает?
Принтер может не распознать неоригинальный картридж. В этом случае вы получите сообщение о том, что картридж пуст. В инструкции к приобретенному картриджу обычно указаны способы устранения проблемы. Если это сделать не удалось, рекомендуется обратиться к продавцу.
Чем обусловлено плохое качество печати?
Причины плохого качества печати могут быть разными. Убедитесь, что картридж заполнен, а тонер имеется в достаточном количестве. Если такой проблемы нет, причина может заключаться в том, что струйному принтеру требуется чистка, высох картридж или сломан печатающий узел. Для лазерного принтера рекомендуется выполнить калибровку.
В чем разница между лазерным и струйным принтером?
Лазерный принтер печатает тонером, а струйный — чернилами.
Почему при печати на струйном принтере появляются черные полосы?
В большинстве случаев это обусловлено поломкой картриджа струйного принтера. Необходимо заменить картридж.
Что означает аббревиатура DPI?
DPI обозначает Dots Per Inch и представляет собой количество капель чернил (на дюйм), которые подаются на бумагу при печати.
Инструкция Canon Imagerunner 1133A доступно в русский?
К сожалению, у нас нет руководства для Canon Imagerunner 1133A, доступного в русский. Это руководство доступно в английский.
Не нашли свой вопрос? Задайте свой вопрос здесь
imageRUNNER 1133 Series
Service Manual Rev.1
Product Overview
Technical Overview
Periodical Services
Disassembly/Assembly
Adjustment
Trouble Shooting
Error Codes
Service Mode
Installation Procedure
|
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
0
Application
This manual has been issued by Canon Inc. for qualified persons to learn technical theory, installation, maintenance, and repair of products. This manual covers all localities where the products are sold. For this reason, there may be information in this manual that does not apply to your locality.
Corrections
This manual may contain technical inaccuracies or typographical errors due to improvements or changes in products. When changes occur in applicable products or in the contents of this manual, Canon will release technical information as the need arises. In the event of major changes in the contents of this manual over a long or short period, Canon will issue a new edition of this manual.
The following paragraph does not apply to any countries where such provisions are inconsistent with local law.
0-2
of this manual.
The following paragraph does not apply to any countries where such provisions are inconsistent with local law.
Trademarks
The product names and company names used in this manual are the registered trademarks of the individual companies.
Copyright
This manual is copyrighted with all rights reserved. Under the copyright laws, this manual may not be copied, reproduced or
translated into another language, in whole or in part, without the written consent of Canon Inc.
(C) CANON INC. 2011
Caution
Use of this manual should be strictly supervised to avoid disclosure of confidential information.
0-2
0
0
Explanation of Symbols
The following symbols are used throughout this Service Manual.
|
Symbols |
Explanation |
Symbols |
Explanation |
|
Used to show permission. |
Remove the screw. |
||
|
Used to show prohibition. |
Tighten the screw. |
||
|
Check. |
Remove the claw. |
||
|
Check visually. |
Insert the claw. |
||
|
Check the noise. |
Use the bundled part. |
||
|
Disconnect the connector. |
Push the part. |
||
|
Connect the connector. |
Plug the power cable. |
||
|
Remove the cable/wire |
|||
|
from the cable guide or wire |
Turn on the power. |
||
|
saddle. |
Set the cable/wire to the cable guide or wire saddle.
T-0-1
0-3
The following rules apply throughout this Service Manual:
1.Each chapter contains sections explaining the purpose of specific functions and the relationship between electrical and mechanical systems with reference to the timing of operation.
In the diagrams, 
represents the path of mechanical drive; where a signal name
accompanies the symbol, the arrow 
indicates the direction of the electric signal. The expression «turn on the power» means flipping on the power switch, closing the front door, and closing the delivery unit door, which results in supplying the machine with power.
2.In the digital circuits, ‘1’ is used to indicate that the voltage level of a given signal is «High», while ‘0’ is used to indicate «Low». (The voltage value, however, differs from circuit to circuit.) In addition, the asterisk (*) as in «DRMD*» indicates that the DRMD signal goes on
when ‘0’.
In practically all cases, the internal mechanisms of a microprocessor cannot be checked in the field. Therefore, the operations of the microprocessors used in the machines are not discussed: they are explained in terms of from sensors to the input of the DC controller PCB and from the output of the DC controller PCB to the loads.
The descriptions in this Service Manual are subject to change without notice for product improvement or other purposes, and major changes will be communicated in the form of Service Information bulletins.
All service persons are expected to have a good understanding of the contents of this Service Manual and all relevant Service Information bulletins and be able to identify and isolate faults in the machine.
0-3
0
0
Contents
Safety Precautions
|
CDRH Provisions————————————————————— |
0-6 |
|
Laser Safety——————————————————————— |
0-6 |
|
About Laser Beams—————————————————————- |
0-6 |
|
Handling Laser Scanner Unit—————————————————- |
0-6 |
|
Toner Safety——————————————————————— |
0-7 |
|
About Toner————————————————————————— |
0-7 |
|
Handling Adhered Toner———————————————————- |
0-7 |
|
Notes When Handling A Battery——————————————- |
0-7 |
|
Notes On Assembly/Disassembly——————————————- |
0-7 |
Product Overview
|
Product Lineups—————————————————————- |
1-2 |
|
Main Unit—————————————————————————— |
1-2 |
|
Options——————————————————————————— |
1-2 |
|
Product Features————————————————————— |
1-3 |
|
Features—————————————————————————— |
1-3 |
|
Specifications——————————————————————- |
1-3 |
|
Main Unit Specifications———————————————————— |
1-3 |
|
ADF Specifications—————————————————————— |
1-5 |
|
FAX Specifications——————————————————————- |
1-5 |
|
Print Speed.————————————————————————— |
1-6 |
|
Paper types—————————————————————————- |
1-6 |
|
Paper size—————————————————————————- |
1-6 |
|
Name of Parts——————————————————————— |
1-7 |
|
External View———————————————————————— |
1-7 |
|
Cross Sectional View————————————————————— |
1-8 |
|
ADF/Reader Unit—————————————————————————— |
1-8 |
|
Printer——————————————————————————————— |
1-8 |
|
Operation Panel——————————————————————— |
1-9 |
|
Main Operation Panel———————————————————————- |
1-9 |
|
0-4 |
|
|
FAX Operation Panel———————————————————————— |
1-9 |
|
Technical Overview |
|
|
Basic Configuration———————————————————— |
2-2 |
|
Configuration Function———————————————————— |
2-2 |
|
Basic Sequence——————————————————————— |
2-2 |
|
Basic Operational Sequence————————————————————- |
2-2 |
|
Print Sequence——————————————————————————- |
2-3 |
|
Print Mode—————————————————————————- |
2-4 |
|
Document Exposure / Delivery System———————————- |
2-5 |
|
Specifications / Control / Function List————————————————- |
2-5 |
|
Major Components————————————————————————— |
2-5 |
|
Document Feeder System——————————————————- |
2-6 |
|
Pickup/Feed/Delivery Operation——————————————————— |
2-6 |
|
Original Detection————————————————————————— |
2-7 |
|
Jam Detection——————————————————————————— |
2-8 |
|
Service Tasks———————————————————————— |
2-8 |
|
Action for Parts Replacement———————————————————— |
2-8 |
|
Maintenance———————————————————————————- |
2-8 |
|
Service Notes——————————————————————————— |
2-8 |
|
Controller System————————————————————— |
2-9 |
|
Outline——————————————————————————— |
2-9 |
|
Controls——————————————————————————- |
2-9 |
|
Outline—————————————————————————————— |
2-9 |
|
Motor / Fan Control———————————————————————— |
2-10 |
|
Failure Detection————————————————————————— |
2-11 |
|
Low-voltage Power Supply—————————————————— |
2-11 |
|
Outline—————————————————————————————— |
2-11 |
|
Protective Function———————————————————————— |
2-12 |
|
Safety—————————————————————————————— |
2-12 |
|
Low-voltage Power Supply Unit Failure Detection——————————— |
2-12 |
|
Power-Saving Mode———————————————————————— |
2-12 |
|
Service Tasks———————————————————————— |
2-13 |
|
Action for Parts Replacement———————————————————— |
2-13 |
|
Maintenance——————————————————————————— |
2-13 |
|
Service Notes——————————————————————————- |
2-13 |
|
Laser Exposure System—————————————————- |
2-14 |
|
0-4 |
0
0
|
Outline——————————————————————————— |
2-14 |
|
Optical Unit Failure Detection—————————————————- |
2-14 |
|
Service Tasks———————————————————————— |
2-14 |
|
Action for Parts Replacement———————————————————— |
2-14 |
|
Maintenance——————————————————————————— |
2-14 |
|
Service Notes——————————————————————————- |
2-14 |
|
Image Formation System————————————————— |
2-15 |
|
Outline——————————————————————————— |
2-15 |
|
Image Formation Process——————————————————- |
2-15 |
|
Outline—————————————————————————————— |
2-15 |
|
Latent Image Formation Block———————————————————- |
2-16 |
|
Developing Block————————————————————————— |
2-16 |
|
Transfer Block——————————————————————————- |
2-17 |
|
Fixing Block———————————————————————————- |
2-17 |
|
Drum Cleaning Block———————————————————————- |
2-17 |
|
High-voltage Power Supply—————————————————— |
2-18 |
|
Outline—————————————————————————————— |
2-18 |
|
Service Tasks———————————————————————— |
2-18 |
|
Action for Parts Replacement———————————————————— |
2-18 |
|
Maintenance——————————————————————————— |
2-18 |
|
Notes on Field Service——————————————————————— |
2-18 |
|
Fixing System—————————————————————— |
2-19 |
|
Outline——————————————————————————— |
2-19 |
|
Fixing Control Circuit————————————————————- |
2-20 |
|
Throughput Reduction Control———————————————————- |
2-20 |
|
Fixing Temperature Control————————————————————— |
2-21 |
|
Protective Function———————————————————————— |
2-21 |
|
Failure Detection————————————————————————— |
2-22 |
|
Service Tasks———————————————————————— |
2-22 |
|
At Parts Replacement——————————————————————— |
2-22 |
|
Maintenance——————————————————————————— |
2-22 |
|
Notes On Service Works——————————————————————- |
2-22 |
|
Pickup / Feed System——————————————————— |
2-23 |
|
Outline——————————————————————————— |
2-23 |
|
Drive Configuration—————————————————————- |
2-23 |
|
Jam Detection———————————————————————- |
2-24 |
|
Outline—————————————————————————————— |
2-24 |
|
0-5 |
|
|
Pickup Delay Jam————————————————————————— |
2-25 |
|
Pickup Stationary Jam——————————————————————— |
2-25 |
|
Delivery Delay Jam————————————————————————— |
2-25 |
|
Delivery Stationary Jam—————————————————————— |
2-25 |
|
Fixing Paper Wrap Jam —————————————————————— |
2-25 |
|
Reverse Delay Jam———————————————————————— |
2-25 |
|
Reverse Stationary Jam—————————————————————— |
2-25 |
|
Internal Residual Jam——————————————————————— |
2-25 |
|
Door Open Jam—————————————————————————— |
2-25 |
|
Service Tasks———————————————————————— |
2-25 |
|
At Parts Replacement——————————————————————— |
2-25 |
|
Maintenance——————————————————————————— |
2-25 |
|
Notes On Service Works——————————————————————- |
2-25 |
|
Embedded RDS————————————————————— |
2-26 |
|
Product Overview—————————————————————— |
2-26 |
|
Overview————————————————————————————— |
2-26 |
|
Features and benefits——————————————————————— |
2-26 |
|
Service cautions——————————————————————— |
2-26 |
|
E-RDS Setup————————————————————————- |
2-27 |
|
E-RDS-related setting items (service mode)—————————————- |
2-27 |
|
Steps to E-RDS settings—————————————————————— |
2-27 |
|
Steps to Request Service Call button settings————————————— |
2-28 |
|
Initializing E-RDS settings—————————————————————- |
2-29 |
|
COM-LOG Report————————————————————————— |
2-29 |
|
FAQ————————————————————————————- |
2-30 |
|
Troubleshooting——————————————————————— |
2-31 |
|
Error code and strings———————————————————— |
2-33 |
|
Periodical Services |
|
|
Periodically Replaced Parts————————————————- |
3-2 |
|
Consumable Parts————————————————————- |
3-2 |
|
Periodical Service————————————————————- |
3-2 |
|
Cleaning————————————————————————— |
3-2 |
|
Disassembly/Assembly |
|
|
List of Parts———————————————————————- |
4-2 |
|
External View———————————————————————— |
4-2 |
|
0-5 |
0
0
|
Main Unit—————————————————————————— |
4-3 |
|
Sensor / Switch——————————————————————— |
4-4 |
|
Motor / Fan————————————————————————— |
4-5 |
|
Other———————————————————————————— |
4-5 |
|
PCB———————————————————————————— |
4-6 |
|
Connector Layout Drawing——————————————————- |
4-7 |
|
External Cover—————————————————————- |
4-11 |
|
Removing the Left Cover Unit————————————————— |
4-11 |
|
Removing the Left Rear Cover————————————————- |
4-13 |
|
Removing the Right Cover Unit———————————————— |
4-14 |
|
Removing the Front Cover Unit———————————————— |
4-16 |
|
Removing the Rear Cover Unit———————————————— |
4-17 |
|
Removing the Upper Cover—————————————————— |
4-18 |
|
Document Exposure / Delivery System——————————— |
4-19 |
|
Removing the ADF Unit + Reader Unit————————————— |
4-19 |
|
Removing the ADF Roller Unit————————————————— |
4-21 |
|
Removing the ADF Pickup Roller———————————————- |
4-22 |
|
Removing the ADF Separation Roller—————————————- |
4-23 |
|
Removing the ADF Separation Pad——————————————- |
4-24 |
|
Removing the ADF Pickup Feed Unit—————————————- |
4-25 |
|
Removing the ADF Pickup Motor Unit—————————————- |
4-28 |
|
Removing the ADF Delivery Solenoid Unit———————————- |
4-29 |
|
Removing the Reader Unit Upper Cover———————————— |
4-29 |
|
Removing the CIS Unit———————————————————— |
4-31 |
|
Controller System———————————————————— |
4-33 |
|
Removing the Controller Cover———————————————— |
4-33 |
|
Removing the Main Controller PCB——————————————- |
4-33 |
|
Removing the NCU PCB (iR 1133iF Only)———————————- |
4-35 |
|
Removing the OFF Hook PCB (iR 1133iF Only)————————— |
4-35 |
|
Removing the Controller Box————————————————— |
4-36 |
|
Removing the Engine Controller Unit —————————————- |
4-38 |
|
Removing the Control Panel—————————————————- |
4-41 |
|
Removing the Main Motor —————————————————— |
4-42 |
|
Removing the Main Fan——————————————————— |
4-44 |
|
Removing the Main Drive Unit ————————————————- |
4-44 |
|
Removing the Duplex Drive Unit———————————————— |
4-47 |
|
0-6 |
|
|
Removing the Duplex Reverse Solenoid———————————— |
4-48 |
|
Removing the Cassette Pickup Solenoid———————————— |
4-48 |
|
Laser Scanner System—————————————————— |
4-49 |
|
Removing the Laser Scanner Unit———————————————- |
4-49 |
|
Image Forming System—————————————————- |
4-50 |
|
Removing the Transfer Roller—————————————————- |
4-50 |
|
Removing the Registration Unit———————————————— |
4-51 |
|
Fixing System—————————————————————— |
4-52 |
|
Removing the Fixing Assembly————————————————— |
4-52 |
|
Pickup / Feed System——————————————————— |
4-54 |
|
Removing the Duplex Feed Unit———————————————— |
4-54 |
|
Removing the Cassette Pickup Roller—————————————- |
4-56 |
|
Removing the Cassette Separation Pad————————————- |
4-57 |
|
Removing the MP Pickup Roller———————————————— |
4-57 |
|
Removing the MP Separation Pad——————————————— |
4-58 |
|
Adjustment |
|
|
Overview————————————————————————- |
5-2 |
|
Actions after Replacement Parts—————————————— |
5-2 |
|
Document Exposure / Delivery System————————————— |
5-2 |
|
After Replacing the CIS Unit————————————————————— |
5-2 |
|
After Replacing the ADF Unit————————————————————- |
5-2 |
|
After Replacing the Reader Unit——————————————————— |
5-3 |
|
After Replacing the Reader Upper Cover Unit————————————— |
5-3 |
|
Controller System—————————————————————— |
5-4 |
|
After Replacing the Main Controller PCB——————————————— |
5-4 |
|
Trouble Shooting |
|
|
Test Print————————————————————————- |
6-2 |
|
Test Pages————————————————————————— |
6-2 |
|
Engine-test Page—————————————————————————- |
6-2 |
|
Controller Test Print ———————————————————————— |
6-2 |
|
Trouble Shooting Items——————————————————- |
6-3 |
|
Special Mode———————————————————————— |
6-3 |
|
Trailing edge image soiling——————————————————- |
6-4 |
|
Repetitive Image Defects Ruler————————————————- |
6-4 |
|
0-6 |
0
0
|
Nip-width Specifications———————————————————- |
6-5 |
|
Version Up———————————————————————— |
6-6 |
|
Overview of Upgrading———————————————————— |
6-6 |
|
Firmware Configuration———————————————————— |
6-6 |
|
Preparation————————————————————————— |
6-7 |
|
Necessary System Environment——————————————————— |
6-7 |
|
Before Downloading the System Software——————————————- |
6-7 |
|
Downloading the System Software——————————————— |
6-8 |
|
Procedure of Downloading—————————————————————- |
6-8 |
Error Codes
|
Overview————————————————————————- |
7-2 |
|
Outline——————————————————————————— |
7-2 |
|
Outline—————————————————————————————— |
7-2 |
|
Location code——————————————————————————— |
7-2 |
|
Position code——————————————————————————— |
7-2 |
|
Alarm Code———————————————————————- |
7-2 |
|
Error Code———————————————————————— |
7-3 |
|
Jam Code———————————————————————— |
7-6 |
Service Mode
|
Overview————————————————————————- |
8-2 |
|
Service Mode Menu—————————————————————- |
8-2 |
|
Backing up Service Mode———————————————————- |
8-2 |
|
Screen flow of Service Mode—————————————————- |
8-3 |
|
Service mode structure——————————————————————— |
8-3 |
|
Screen flow of Service mode————————————————————- |
8-3 |
|
COPIER————————————————————————— |
8-4 |
|
DISPLAY—————————————————————————— |
8-4 |
|
VERSION————————————————————————————— |
8-4 |
|
ERR——————————————————————————————— |
8-4 |
|
JAM——————————————————————————————— |
8-4 |
|
CCD——————————————————————————————— |
8-5 |
|
I/O—————————————————————————————- |
8-5 |
|
R-CON——————————————————————————————- |
8-5 |
|
ADJUST——————————————————————————- |
8-6 |
|
ADJ-XY—————————————————————————————- |
8-6 |
|
0-7 |
|
|
CCD——————————————————————————————— |
8-7 |
|
PASCAL————————————————————————————— |
8-11 |
|
FEED-ADJ———————————————————————————— |
8-12 |
|
FUNCTION————————————————————————— |
8-13 |
|
CCD——————————————————————————————— |
8-13 |
|
CLEAR—————————————————————————————- |
8-14 |
|
MISC-R————————————————————————————— |
8-14 |
|
MISC-P—————————————————————————————- |
8-15 |
|
SYSTEM————————————————————————————— |
8-15 |
|
SPLMAN————————————————————————————— |
8-16 |
|
INSTALL—————————————————————————————- |
8-17 |
|
OPTION—————————————————————————— |
8-19 |
|
BODY—————————————————————————————— |
8-19 |
|
USER—————————————————————————————— |
8-20 |
|
ACC——————————————————————————————— |
8-22 |
|
LCNS-TR————————————————————————————- |
8-22 |
|
LCNS-OF————————————————————————————- |
8-24 |
|
COUNTER————————————————————————— |
8-25 |
|
TOTAL—————————————————————————————— |
8-25 |
|
PICK-UP————————————————————————————— |
8-26 |
|
FEEDER————————————————————————————— |
8-26 |
|
JAM——————————————————————————————— |
8-26 |
|
DRBL-2————————————————————————————— |
8-27 |
|
FEEDER————————————————————————- |
8-28 |
|
ADJUST—————————————————————————— |
8-28 |
|
FUNCTION————————————————————————— |
8-29 |
|
FAX—————————————————————————— |
8-30 |
|
List of SSSW———————————————————————— |
8-30 |
|
List of MENU———————————————————————— |
8-31 |
|
List of NUM————————————————————————— |
8-31 |
|
Setting of NCU Parameters—————————————————— |
8-32 |
|
TONE/PULSE——————————————————————————- |
8-32 |
|
DIAL TONE———————————————————————————- |
8-33 |
|
2nd DIAL TONE—————————————————————————— |
8-33 |
|
BUSY TONE 0—————————————————————————— |
8-34 |
|
BUSY TONE 1—————————————————————————— |
8-34 |
|
REORDER TONE————————————————————————— |
8-35 |
|
AUTO RX————————————————————————————- |
8-35 |
|
0-7 |
0
0
|
CNG DETECT——————————————————————————- |
8-35 |
|
RKEY—————————————————————————————— |
8-35 |
|
PBX DIAL TONE 1————————————————————————- |
8-36 |
|
PBX BUSY TONE————————————————————————— |
8-36 |
|
TESTMODE——————————————————————- |
8-37 |
|
PRINT——————————————————————————— |
8-37 |
|
FAX———————————————————————————— |
8-38 |
|
MODEM————————————————————————————— |
8-38 |
|
FACULTY————————————————————————————- |
8-39 |
Installation Procedure
|
How to Check this Installation Procedure——————————- |
9-2 |
|
Description on the parts included in the package————————— |
9-2 |
|
When Using the Parts Included in the Package—————————- |
9-2 |
|
Symbols in the Illustration——————————————————— |
9-2 |
|
Host Machine——————————————————————- |
9-3 |
|
Selecting the Site of Installation———————————————— |
9-3 |
|
Points to Note before Using Wireless LAN———————————— |
9-4 |
|
Points to Note before Installation———————————————— |
9-4 |
|
Table of Options Combination————————————————— |
9-4 |
|
Checking the Contents———————————————————— |
9-5 |
|
Unpacking and Installation Procedure—————————————- |
9-5 |
|
Wireless LAN Board-C1—————————————————— |
9-8 |
|
Checking the Contents———————————————————— |
9-8 |
|
Check Items when Turning OFF the Main Power————————— |
9-8 |
|
Installation Outline Drawing—————————————————— |
9-8 |
|
Installation Procedure————————————————————— |
9-8 |
|
Setting After Installation———————————————————- |
9-11 |
|
Control Interface Kit-C1—————————————————- |
9-12 |
|
Points to Note at Installation—————————————————- |
9-12 |
|
Checking the Contents———————————————————— |
9-12 |
|
Check Items when Turning OFF the Main Power————————- |
9-12 |
|
Installation Outline Drawing—————————————————— |
9-12 |
|
Installation Procedure————————————————————— |
9-12 |
|
MiCARD Attachment Kit-A1———————————————— |
9-16 |
|
Points to Note at Installation—————————————————- |
9-16 |
|
0-8 |
|
|
Check Items when Turning OFF the Main Power————————- |
9-16 |
|
Installation Outline Drawing—————————————————— |
9-16 |
|
Checking the Contents———————————————————— |
9-16 |
|
Installation Procedure————————————————————— |
9-17 |
|
Checking after Installation——————————————————- |
9-27 |
|
When IC-CardReader is not Enabled by the Server—————————— |
9-27 |
|
When IC-Card Reader is Enabled by the Server———————————— |
9-27 |
|
Copy Card Reader-F1—————————————————— |
9-28 |
|
Points to Note at Installation—————————————————- |
9-28 |
|
Check Items when Turning OFF the Main Power————————- |
9-28 |
|
Installation Outline Drawing—————————————————— |
9-28 |
|
Checking the Contents———————————————————— |
9-28 |
|
Card Reader-F1—————————————————————————- |
9-28 |
|
Copy Card Reader Attachmentt-G1————————————————— |
9-29 |
|
Installation Procedure————————————————————— |
9-29 |
|
Setting After Installation———————————————————- |
9-37 |
|
Appendex |
|
|
Service Tools———————————————————————- |
II |
|
Special Tools—————————————————————————- |
II |
|
Solvents and Oils———————————————————————- |
II |
|
General Timing Chart———————————————————— |
III |
|
General Circuit Diagram——————————————————— |
IV |
|
General Circuit Diagram (1/2)—————————————————— |
IV |
|
General Circuit Diagram (2/2)—————————————————— |
V |
0-8
0
Safety Precautions
■■CDRH Provisions
■■Laser Safety
■■Toner Safety
■■Notes When Handling A
Battery
F-0-2
■■Notes On Assembly/
Disassembly
0Safety Precautions > Laser Safety > Handling Laser Scanner Unit
CDRH Provisions
Food and Drug CDRH (Center for Devices and Radiological Health) under FDA (Food and Drug Administration) enforced provisions of the section for laser and laser products on August 2, 1976. These provisions are applicable to all laser products manufactured or assembled after August 1, 1976 and allow only products certified their compliance with the provisions
to market in the US. Each product shall have affixed the applicable label as shown below to follow the labeling requirements prescribed in CDRH provisions.
Note that the wording included in labels is different depending on laser product classifications.
CAUTION:
Note that the wording included in labels is different depending on laser product classifications.
0-10
Laser Safety
About Laser Beams
Laser radiation may be hazardous to human. The laser scanner unit mounted in this device is sealed in the protective housing and the external cover to prevent laser beams from leaking to the environment. As long as the device is operated under normal conditions, users are safely arded from laser leaks.
Handling Laser Scanner Unit
Before providing service works for the laser scanner unit and its peripherals, ensure to turn off the power of the device.
Any cover with potential dangers of laser beam reflection has affixed the caution label at the position shown in the figure below.
[1]
F-0-3
0-10
0Safety Precautions > Laser Safety > Handling Laser Scanner Unit
0Safety Precautions > Notes On Assembly/Disassembly
Toner Safety
About Toner
Toner is a nontoxic matter composed of plastic, iron and a trace of pigments.
CAUTION:
Never throw toner in flames to avoid explosion.
Handling Adhered Toner
•Use dry tissue paper to wipe off toner adhered to skin or clothes and wash in water.
•Never use warm water for cleaning up toner to prevent toner particles from being gelated to soak into fibers permanently.
•Toner particles are reactive with vinyl polymers. Avoid contacting these materials.
CAUTION:
Risk Of Explosion If Battery Is Replaced By An Incorrect Type.
Dispose Of Used Batteries According To The Instructions.
CAUTION:
Wenn mit dem falschen Typ ausgewechselt, besteht Explosionsgefahr.
Gebrauchte Batterien gemäß der Anleitung beseitigen.
0-11
Notes On Assembly/Disassembly
Follow the items below to assemble/disassemble the device.
1.Disconnect the power plug to avoid any potential dangers during assembling/disassembling works.
2.If not specially instructed, reverse the order of disassembly to reinstall.
3.Ensure to use the right screw type (length, diameter, etc.) at the right position when assembling.
4.To keep electric conduction, binding screws with washers are used to attach the grounding wire and the varistor. Ensure to use the right screw type when assembling.
5.Unless it is specially needed, do not operate the device with some parts removed.
6.Never remove the paint-locked screws when disassembling.
CAUTION
DOUBLE POLE/NEUTRAL FUSING
F-0-4
0-11
0Safety Precautions > Notes On Assembly/Disassembly
1Product Overview■■Product Lineups
■■Product Features ■■Specifications ■■Name of Parts
1Product Overview
1Product Overview > Product Lineups > Options
Product Lineups
Main Unit
|
Function |
imageRUNNER |
||
|
1133 |
1133A |
1133iF |
Appearance
|
F-1-1 |
F-1-2 |
|||
|
Copy |
O |
O |
O |
|
|
|
O |
O |
O |
|
|
Fax |
— |
— |
O |
|
|
SEND |
— |
— |
O |
|
|
Scan to USB |
O |
O |
O |
|
|
Remote UI |
O |
O |
O |
|
|
DADF |
— |
O |
O |
|
|
Automatic 2-sided |
O |
O |
O |
|
|
Print (60 to 128g / |
||||
|
m2 paper) |
||||
|
MEAP |
— |
— |
— |
|
|
T-1-1 |
1-2
Options
[2]
|
[3] |
||||
|
[5] |
||||
|
[1] |
[4] |
|||
|
F-1-3 |
||||
|
No. |
Name |
Description |
Remarks |
|
|
[1] Canon Cassette Feeding Module-Z1 |
Approx. 500 Sheets (Plain paper 80g/ m2) |
— |
||
|
[2] |
Wireless LAN Board-C1 |
This is a wireless LAN interface board. |
||
|
[3] Copy Control Interface Kit-C1 |
Required when the coin vender is connected. |
|||
|
[4] |
Copy Card Reader-F1 |
This is a card reader used for management |
||
|
of a department ID. |
||||
|
[5] |
MiCARD Attachment Kit-A1 |
Leader chip card installation use |
||
|
* IC Selling another as for the leader chip |
||||
|
card |
||||
|
T-1-2 |
1-2
1Product Overview > Product Lineups > Options
1Product Overview > Specifications > Main Unit Specifications
Product Features
Features
The product compactified with lower height.
464.0 mm
450.0 mm
F-1-4
LUI (Display): Adoption of 5-line UI
Perception and operability are improved with the adoption of 5-line UI.The screen is easier to operate without a sense of hierarchy and its visibility is improved with graphics and scrolling texts.
1-3
Specifications
Main Unit Specifications
|
Item |
Specification/function |
|
|
Body |
Desktop (DADF standard type) |
|
|
Light Source Type |
LED |
|
|
Photosensitive Medium |
OPC drum |
|
|
Image Reading Method |
Contact Image Sensor Reading Method |
|
|
Reproduction Method |
Indirect electrostatic copying method |
|
|
Exposure Method |
Semiconductor laser |
|
|
Charging Method |
Roller contact charging method |
|
|
Development Method |
Dry system — element jumping development method |
|
|
Transfer Method |
Roller transfer method |
|
|
Separation Method |
Electrostatic separation (neutralizing needle) and curvature separation |
|
|
Cassette Pickup Method |
Pad separation method |
|
|
MP Pickup Method |
Pad separation method |
|
|
Drum Cleaning Method |
Rubber blade |
|
|
Fixing Method |
On-demand |
|
|
Toner Level Sensor |
3 levels (OK, Low, Low2) Unable to detect absence of toner. |
|
|
Toner Type |
Magnetic negative toner |
|
|
Toner Supply Type |
By drum style toner cartridge |
|
|
Toner Save Mode |
Yes |
|
|
Original Type |
Sheets, books, solids (up to 2 kg) |
|
|
Maximum Original Size |
216mm x 356mm |
|
|
Reproduction Ratio |
Zoom: 0.50 to 2.00 (specified by the percent) |
|
|
Warm-up Time |
11.0 seconds or less |
|
|
Reading Resolution |
<TEXT/PHOTO>: 300 dpi x 600 dpi |
|
|
<TEXT>, <PHOTO>, <TEXT/PHOTO+>: 600 dpi x 600 dpi |
||
|
Printing Resolution |
600 x 600 dpi |
|
|
First Print Time |
6 seconds or less (A4/LTR) |
|
|
First Copy Time |
Book: 8 seconds or less (A4/LTR) |
|
|
ADF: 12 seconds or less (A4/LTR) |
||
|
Print Speed |
Approximately 35 ppm (LTR) / 33 ppm (A4) |
|
|
Cassette Paper Size |
LTR, LGL, A4, B5, A5, Executive, Oficio, Brazil-Oficio, Mexico-Oficio, |
|
|
FLSP, A-FLS, Government-LTR, Government-LGL |
||
|
1-3 |
1Product Overview > Specifications > Main Unit Specifications
1Product Overview > Specifications > Main Unit Specifications
|
Item |
Specification/function |
|
|
LTR, LGL, A4, B5, A5, Executive, Oficio, Brazil-Oficio, Mexico-Oficio, |
||
|
MP Tray Paper Size |
FLSP, A-FLS, Government-LTR, Government-LGL, Transparency, |
|
|
Labels, Envelopes |
||
|
76 × 127 to 216 × 356 mm |
||
|
Cassette Paper Type |
Plain Paper (60 to 89g / m2), Plain Paper (60 to 89 g/m2) recycled |
|
|
paper (60 to 89 g/m2), Color (64 g/m2), Heavy Paper1 (90 to 128 g/m2), |
||
|
Plain Paper (60 to 89g / m2), Plain Paper (60 to 89 g/m2), recycled |
||
|
MP Tray Paper Type |
paper (60 to 89 g/m2), Color (64 g/m2), Heavy Paper 1 (90 to 128 |
|
|
g/m2), Heavy Paper 2 (129 to 163 g/m2), Transparency, Labels, |
||
|
Envelopes |
||
|
Cassette Capacity |
500 sheets (80g / m2) |
|
|
MP feeder Tray Capacity |
50 sheets (80g / m2) |
|
|
Delivery Tray Stack |
75 sheets ( 80g / m2) |
|
|
Continuous Reproduction |
1 to 99 sheets |
|
|
Duplex Method |
Yes (60 to 128g / m2 paper LTR, LGL, A4 only) |
|
|
Hard Disk |
Standard:No, option:No |
|
|
Memory |
256MB |
|
|
Energy Save Mode |
Yes. (Manual ON / OFF, automatically OFF after a set period of time, |
|
|
automatically ON when receiving facsimile / print data) |
||
|
Operating Environment |
10 to 30 degrees C |
|
|
(Temperature Range) |
||
|
Operating Environment |
20 to 80 % |
|
|
(Humidity Range) |
||
|
Operating Environment |
0.16 to 1.01 hPa (0. 6 to 1 bar) |
|
|
(Atmospheric Pressure) |
||
|
Power Supply Rating |
220-240V, 50/60Hz |
|
|
Power Consumption |
Maximum consumption: Less than 1200 W |
|
|
(Maximum) |
||
|
Average consumption during standby mode |
||
|
Approx. 9W |
||
|
Power Consumption |
Average consumption during sleep mode |
|
|
Approx. 2.5 W |
||
|
Approx. 3.1 W (by Wireless Connections) |
||
|
Dimensions |
iR 1133A / 1133iF : 464 mm (H) × 472 mm (D) × 450 mm (W) |
|
|
iR 1133 : 413 mm (H) × 472 mm (D) × 450 mm (W) |
||
|
iR 1133: Approximately 18.3 kg (including the toner cartridge 19.1 kg) |
||
|
Weight |
iR 1133A: Approximately 20.5 kg (including the toner cartridge 21.3 kg) |
|
|
iR 1133iF: Approximately 20.7 kg (including the toner cartridge 21.5 kg) |
1-4
|
Item |
Specification/function |
|
Network (100Base-TX / 10Base-T) |
|
|
Inter Face |
USB Port Front(USB1.1) |
|
USB Port Rear(USB1.1/2.0) |
|
|
PDL |
BDL-Image, PCL5 / PCLXL |
T-1-3
1-4
1Product Overview > Specifications > Main Unit Specifications
1Product Overview > Specifications > FAX Specifications
ADF Specifications
|
Item |
Specification/function |
|
Original position |
center reference |
|
Original processing mode |
1-sided to 1-sided copy, 2-sided to 2-sided copy, 1-sided to 2-sided |
|
copy, 2-sided to 1-sided copy |
|
|
Original reading |
stream reading method |
|
Stack |
A4/LTR: 50 sheets, LGL: 30 sheets |
|
A4/LTR: 300 x 300 dpi |
|
|
Original reading speed |
Color: 9.3 sheets / minute |
|
BW: 28 sheets / minute |
|
|
Mixed original sizes |
Yes |
|
Original AE detection |
No |
|
Original size recognition |
No |
|
Stamp |
No |
|
Operating environment |
pursuant to the host machine |
|
T-1-4 |
1-5
FAX Specifications
|
Item |
Specification/function |
|
Suitable Line |
Public Switched Telephone Network (PSTN) |
|
Up to 28.8Kbps in modem speed is currently available in PSTN. Note |
|
|
that available modem speed is telephone-line dependent. |
|
|
Telephone line connection: 1 |
|
|
Communication Protocol |
Super G3 |
|
Modulation Method |
Image modulation : V.34/V.8/V.17/V.29/V.27ter |
|
Transmission procedure : V.21 |
|
|
Transmission Speed |
33,600 bps |
|
Coding |
Compression method: JBIG, MMR, MR, MH |
|
Error Correction |
ECM |
|
Minimum Receivable Input |
V.17, V.27ter, V.29: -6 to -43 dBm |
|
Level |
V.34: -10 to -43 dBm |
|
Modem IC |
CONEXANT DFX336 |
|
Scanning Line Density |
Normal : 8 dots/mm x 3.85 lines/mm |
|
Fine : 8 dots/mm x 7.7 lines/mm |
|
|
Super fine : 8 dots/mm x 15.4 lines/mm |
|
|
Ultra fine : 16 dots/mm x 15.4 lines/mm |
|
|
Half Tone |
256 tones |
|
Reproduction Resolution |
600 x 600 dpi |
|
Receivable Reduction |
Automatic reduction: 75-100% (1% increment) |
|
Setting |
|
|
FAX/TEL Switching |
Available |
|
Answering Machine |
Available |
|
Transfer Setting |
|
|
Remote Reception |
Available |
|
Auto-dialing |
Available |
|
Delayed Transmission |
Available |
|
Broadcast Transmission |
Maximum number of destinations: 210 |
|
One-touch dial: 19 + coded dial: 181 + new destinations: 10 |
|
|
Priority order of destinations to be sent |
|
|
New destination => one-touch destination => coded destination (sent in |
|
|
this order) |
|
|
Dual Access |
Up to 70 schedules |
|
Image Data Backup |
Available |
|
T-1-5 |
1-5
1Product Overview > Specifications > FAX Specifications
1Product Overview > Specifications > Paper size
Print Speed.
(Unit: page/minute)
|
Paper type |
Cassette |
MP Tray |
OP Cassette |
|||
|
1-sided |
2-sided |
1-sided |
2-sided |
1-sided |
2-sided |
|
|
A4 |
33 |
16.8 |
33 |
16.8 |
33 |
16.8 |
|
LTR |
35 |
17 |
35 |
17 |
35 |
17 |
|
LGL |
28.7 |
13.8 |
28.7 |
13.8 |
28.7 |
13.8 |
|
B5 |
13>12>8>6 |
— |
16>12>8>6 |
— |
10>10>8>6 |
— |
|
A5 |
15>12>8>6 |
— |
17>12>8>6 |
— |
11>11>8>6 |
— |
|
Strip of paper (90 to |
— |
— |
2>1 |
— |
— |
— |
|
297 mm) |
||||||
|
Postcard |
— |
— |
17>12>8>6 |
— |
— |
— |
|
Envelope |
— |
— |
12>8>6 |
— |
— |
— |
|
T-1-6 |
Paper types
(○: available -: not available)
|
Paper types |
Printer driver setting |
Cassette |
Multi-purpose |
||
|
Tray |
|||||
|
Plain |
From 16 to 23 lb |
Plain Paper |
○ |
○ |
|
|
(60 to 89 g/m2) |
|||||
|
From 16 to 23 lb |
Plain Paper L |
○ |
○ |
||
|
(60 to 89 g/m2) |
|||||
|
Color |
17 lb (64 g/m2) |
Color |
○ |
○ |
|
|
Recycled* |
From 17 to 23 lb |
Recycled |
○ |
○ |
|
|
(60 to 89 g/m2) |
|||||
|
Thick |
From 24 to 34 lb |
Heavy Paper 1 |
○ |
— |
|
|
(90 to 128 g/m2) |
|||||
|
From 35 to 43 lb |
Heavy Paper 2 |
— |
○ |
||
|
(129 to 163 g/m2) |
|||||
|
Transparency |
Transparency *1 |
— |
○ |
||
|
Label |
Label |
— |
○ |
||
|
Envelope |
Envelope |
— |
○ |
T-1-7
*1: Use only LTR or A4 transparencies made especially for this machine.
|
1-6 |
||
Paper size |
||
|
(○: available -: not available) |
||
|
Paper size |
Cassette |
Multi-purpose Tray |
|
A4 (210.0 mm × 297.0 mm) |
○ |
○ |
|
B5 (182.0 mm × 257.0 mm) |
○ |
○ |
|
A5 (148.0 mm × 210.0 mm) |
○ |
○ |
|
Legal (LGL) (215.9 mm × 355.6 mm) |
○ |
○ |
|
Letter (LTR) (215.9 mm × 279.4 mm) |
○ |
○ |
|
Executive (EXEC) (184.0 mm × 266.7 mm) |
○ |
○ |
|
Officio (215.9 mm × 317.5 mm) |
○ |
○ |
|
Brazil Officio (215.9 mm × 355.6 mm) |
○ |
○ |
|
Mexico Officio (215.9 mm × 341 mm) |
○ |
○ |
|
Government Letter (203.2 mm × 266.7 mm) |
○ |
○ |
|
Government Legal (203.2 mm × 330.2 mm) |
○ |
○ |
|
FOOLSCAP (215.9 mm × 330.2 mm) |
○ |
○ |
|
A-FLS (205.7 mm × 337.82mm) |
○ |
○ |
|
3″×5″ to Legal (76 × 127 to 216 mm× 356 mm) |
— |
○ |
|
T-1-8 |
1-6
1Product Overview > Specifications > Paper size
1Product Overview > Name of Parts > External View
Name of Parts
External View
|
[1] |
[2] |
|
|
[7] |
[3] |
|
|
[8] |
||
|
[9] |
||
|
[4] |
||
|
[10] |
[13]
[23]
[14]
|
[22] |
|||
|
[21] |
[15] |
||
|
HAND |
|||
|
SET |
[16] |
||
|
[20] |
[17] |
||
|
[18] |
|||
|
[19] |
|||
F-1-5
1-7
|
Key |
Name |
Key |
Name |
|
[1] |
DADF (Duplex Automatic Document |
[13] |
USB Port 2 |
|
Feeder) |
|||
|
[2] |
Document Feeder Tray |
[14] |
Ethernet Port |
|
[3] |
Document Delivery Tray |
[15] |
Left Cover Unit |
|
[4] |
Control Panel |
[16] |
Handset Terminal |
|
[5] |
Right Cover |
[17] |
External Telephone Terminal |
|
[6] |
MP Pickup Tray |
[18] |
Telephone Line Terminal |
|
[7] |
Upper Cover |
[19] |
Left Rear Cover |
|
[8] |
USB Port |
[20] |
Power Socket |
|
[9] |
Reader Unit |
[21] |
Rear Lower Cover |
|
[10] |
Front Cover |
[22] |
Rear Upper Cover |
|
[11] |
Main Power Switch |
[23] |
Platen Cover |
|
[12] |
Paper Cassette |
T-1-9
1-7
1Product Overview > Name of Parts > External View
|
1 |
Product Overview > Name of Parts > Cross Sectional View > Printer |
1-8 |
|||||||||||||||||||||||||
Cross Sectional View |
|||||||||||||||||||||||||||
|
■■Printer |
|||||||||||||||||||||||||||
|
■■ADF/Reader Unit |
[7] |
||||||||||||||||||||||||||
|
[1] |
[2] |
[3] |
|||||||||||||||||||||||||
|
[3] |
[4] |
[6] |
[8] |
[9] |
|||
|
[2] |
[10] |
||||||
|
[1] |
|||||
|
[18] |
[11] |
||||
|
[5] |
[17] |
[12] |
|||
|
[5] |
[4] |
||||
|
F-1-6 |
[13] |
||||
|
Key |
Name |
Reference |
[14] |
||
|
[1] ADF Paper Feed Roller |
|||||
|
[20] |
|||||
|
[2] |
ADF Separation Roller |
||||
|
[3] |
ADF Pickup Roller |
[15] |
|||
|
[4] |
ADF Delivery roller |
||||
|
[5] |
ADF Separation Pad |
||||
|
T-1-10 |
|||||
|
[19] |
[16] |
F-1-7
|
Key |
Name |
Key |
Name |
|
[1] |
Fixing delivery roller |
[11] MP tray pickup roller |
|
|
[2] |
Face-down delivery roller |
[12] MP tray separation pad |
|
|
[3] |
Fixing Assembly |
[13] |
Feed roller |
|
[4] |
Fixing film unit |
[14] |
Cassette pickup roller |
|
[5] |
Pressure roller |
[15] |
Cassette separation pad |
|
[6] |
Laser scanner unit |
[16] |
Duplex re-pickup roller |
|
[7] |
Reader Upper Cover Unit (scanning glass) |
[17] |
Transfer roller |
|
[8] |
Toner Cartridge |
[18] |
Photosensitive drum |
|
[9] |
Registration shutter |
[19] |
Duplex feed roller |
|
[10] |
Registration roller |
[20] |
Duplex feed unit |
T-1-11
1-8
1Product Overview > Name of Parts > Cross Sectional View > Printer
1Product Overview > Name of Parts > Operation Panel > FAX Operation Panel
Operation Panel
■■Main Operation Panel
|
[1] |
[2] |
[3] |
[4] |
[5] |
[6] |
[7] |
[8] |
[9] |
[10] [11] [12] |
[13] [14] [15] |
|
|
COPY |
FAX |
SCAN |
DIRECT |
1 2 3 |
|||||||
|
|
|||||||||||
|
ABC |
DEF |
||||||||||
|
1 |
2 |
3 |
ID |
||||||||
|
GHI |
JKL |
MNO |
|||||||||
|
OK |
4 |
5 |
6 |
C |
|||||||
|
PQRS |
TUV |
WXYZ |
|||||||||
|
7 |
8 |
9 |
|||||||||
|
0 |
|
[27] |
[26] |
[25] [24] [23] [22] [21] |
[20] |
[19] |
[18] [17] [16] |
F-1-8
|
Key |
Name |
Key |
Name |
|
[1] |
Paper Select indicator |
[16] |
[Stop/Reset] key |
|
[2] |
[2-Sided] key |
[17] |
[Start] key |
|
[3] |
[Menu] key |
[18] |
Error indicator |
|
[4] |
Display |
[19] |
Processing/Data indicator |
|
[5] |
[COPY] key |
[20] |
[Numeric] key |
|
[6] |
[FAX] key * |
[21] |
[Tone] key |
|
[7] |
[SCAN] key |
[22] |
[Status Monitor/Cancel] key |
|
[8] |
[DIRECT PRINT] key |
[23] |
[View Settings] key |
|
[9] |
Wi-Fi LED |
[24] [ ▲ ][ ▼ ][ ][ ] key |
|
|
[10] |
[Counter] key |
[25] |
[Back] key |
|
[11] |
[Report] key |
[26] |
[Reset] key |
|
[12] |
[Energy Saver] keys |
[27] |
[Select Paper/Settings] key |
[13][Log In/Out] key (ID key)
[14][Clear] key
[15][Secure print] key
|
* imageRUNNER 1133iF only |
T-1-12 |
1-9
■■FAX Operation Panel
Panel open
08
09
10
11
12
13
14
15
16
17
18
19
[5]
01
02
03
04
05
06
07
[5][6]
|
Key |
Name |
Key |
Name |
|
[1] |
[Address Book] key |
[4] |
[Hook] key |
|
[2] |
[Coded Dial] key |
[5] |
[One touch] key |
|
[3] |
[Redial] key |
[6] |
[Pause] key |
|
* imageRUNNER 1133iF only |
T-1-13 |
1-9
1Product Overview > Name of Parts > Operation Panel > FAX Operation Panel
2Technical Overview■■Basic Configuration
■■Document Exposure / Delivery
System
■■Controller System
■■Laser Exposure System
■■Image Formation System
■■Fixing System
■■Pickup / Feed System
■■Embedded RDS
2Technical Overview
2 Technical Overview > Basic Configuration > Basic Sequence > Basic Operational Sequence
2-2
Basic Configuration
Configuration Function
This device is roughly composed of the 6 functional blocks as shown in the figure below
|
• |
Document Exposure/Delivery System |
• |
Image Formation System |
|
• |
Controller System |
• |
Fixing System |
|
• |
Laser Exposure System |
• Pickup / Feed System |
Document exposure/delivery system
ADF unit
Contact Sensor
Delivery unit
Laser Exposure System
|
Fixing System |
Laser scanner |
|
|
Cartridge |
||
|
Fixing unit |
||
|
Image Formation System |
||
|
Photosensitive drum |
Pickup / Feed System MP Tray
|
Transfer roller |
|
|
Main |
Controller system |
|
Controller |
Engine controller |
|
Casette |
Basic Sequence
■■Basic Operational Sequence
The CPU on the Engine Controller PCB controls the operational sequence. The table below shows the operation and the purposes in each status from start-up of the device and to last rotation after print job completion.
|
Status |
Operation |
|
|
WAIT |
Interval from power-ON |
Activate the printer to be ready for printing. During WAIT |
|
(Wait) |
or reactivation from sleep |
time, the following operations are done: pressure is applied |
|
mode upon shutting the |
to the pressure roller of the Fixing Unit; check cartridges |
|
|
door(s) to entering the print- |
and units being in place; move the developing unit to the |
|
|
ready status |
home position; and, clean the ITB. When needed, color |
|
|
displacement is corrected and the image is stabilized. |
||
|
STBY |
Interval from the wait time or |
Maintain the print-ready status. The printer enters the sleep |
|
(STBY) |
the last rotation to issuance |
mode upon receiving a “sleep” command from the main |
|
of a print command from the |
controller during the stand-by status. The printer executes |
|
|
main controller or power- |
color displacement correction or image stabilization upon |
|
|
OFF. |
receiving corresponding commands from the main controller. |
|
|
INTR |
Interval from issuance of |
To make the printer ready for print jobs, activate high- |
|
(IINTR) |
a print command from the |
voltage bias PCBs, the Laser Scanner Unit and the Fixing |
|
main controller during the |
Unit. |
|
|
stand-by status to warming |
||
|
up the Fixing Unit to the |
||
|
target temperature. |
||
|
|
Interval from the initial |
Based on the video signals input from the main controller, |
|
(Print) |
rotation to completion of last |
form the static latent image on the photosensitive drum to |
|
page fixation. |
transfer and fix the toner image on paper. When a certain |
|
|
pages are printed after power-ON, the device undergoes |
||
|
color displacement correction and/or image stabilization. |
||
|
LSTR |
Interval from print job |
The last page of the print job is completely delivered. In |
|
(Last |
completion to Motor |
this status, the Laser Scanner Unit and high-voltage bias |
|
rotation) |
deactivation. |
PCBs are inactive. The printer starts the initial rotation upon |
|
receiving a print command from the main controller during |
||
|
this status. |
||
|
T-2-1 |
|
Laser beam |
|
|
PC |
Paper flow |
|
Signal flow |
F-2-1
2-2
2Technical Overview > Basic Configuration > Basic Sequence > Basic Operational Sequence
|
2 |
Technical Overview > Basic Configuration > Basic Sequence > Print Sequence |
2-3 |
||||||||||||||||||||||||||||||||
|
■■Print Sequence |
||||||||||||||||||||||||||||||||||
|
Timing chart two consecutive prints on LTR paper |
||||||||||||||||||||||||||||||||||
|
Power switch ON |
||||||||||||||||||||||||||||||||||
|
Operation |
||||||||||||||||||||||||||||||||||
|
WAIT |
STBY |
INTR |
|
LASTR |
STBY |
|||||||||||||||||||||||||||||
|
1 |
TOP sensor (PS204) |
|||||||||||||||||||||||||||||||||
|
2 |
Fixing delivery sensor (PS915) |
|||||||||||||||||||||||||||||||||
|
3 |
Print start command (EEC12) |
|||||||||||||||||||||||||||||||||
|
4 |
Scanner Motor (M202) |
|||||||||||||||||||||||||||||||||
|
5 |
Laser Diode |
|||||||||||||||||||||||||||||||||
|
6 |
BD Output signal (BDO) |
|||||||||||||||||||||||||||||||||
|
7 |
Main Motor (M201) |
|||||||||||||||||||||||||||||||||
|
8 |
Primary Charging Bias (AC) |
|||||||||||||||||||||||||||||||||
|
9 |
Primary Charging Bias (DC) |
|||||||||||||||||||||||||||||||||
10Developing Bias
11Transfer Charging Bias
12Fixing Heater (H201/H2010)
13 Cassette pickup solenoid (SL201)
14 Main Fan (FM201)
15
16
17
18
19
20
2-3
2Technical Overview > Basic Configuration > Basic Sequence > Print Sequence
|
2 |
Technical Overview > Basic Configuration > Print Mode |
||||||
Print Mode |
2-4 |
||||||
|
Print modes |
Feeding speed |
Media type |
Print speed |
Remarks |
|||
|
Normal speed |
1/1speed |
Speed for plain paper A4/LTR |
33/35 ppm |
||||
|
mode |
width (60 to 89g) |
||||||
|
Transparencies |
|||||||
|
1/2 speed mode |
1/2 speed |
Plain paper A4/LTR width |
|||||
|
(60 to 89g) |
|||||||
|
Plain paper less than A4 width (60 |
|||||||
|
to 89g) |
|||||||
|
Heavy paper (90 to 163g) |
|||||||
|
Bond paper (60 to 163g) |
|||||||
|
Label paper |
|||||||
|
Postcard, Tab paper |
|||||||
|
Envelope |
|||||||
|
T-2-2 |
*1: Normal mode is recommended for Neenah Bond 60g/m2
2-4
2Technical Overview > Basic Configuration > Print Mode
2Technical Overview > Document Exposure / Delivery System
Document Exposure / Delivery System
■■Specifications / Control / Function List
|
item |
function / method |
|
Document Exposure |
LED |
|
Document Scan |
Book mode: scan by the shift of the contact Book mode: scan by the shift |
|
of the contact image sensor (CIS) |
|
|
ADF: document stream reading by fixed contact image sensor (CIS) |
|
|
Scanning Resolution |
600 dpi (horizontal scanner) X 600 dpi (vertical scanner) |
|
Number Of Gradations |
256 gradations |
|
Magnification |
50% to 200% |
|
horizontal: image processing by Main Controller PCB |
|
|
vertical: change of carriage shift speed, image processing by Main |
|
|
Controller PCB |
|
|
Lens |
rod lens array |
|
CMOS Sensor |
number of lines: 1 line |
|
number of pixels: 5184 pixels as total pixels (5107 pixels as effective |
|
|
pixels) |
|
|
maximum document scanning width: 216 mm |
|
|
CS Drive Control |
drive control by Reader Motor (M701) |
|
CS HP Detection |
Yes |
|
Document Size Detection |
None |
|
Dirt Sensor Detection |
Yes |
|
T-2-3 |
2-5
■■Major Components
Followings are the major components for Document Exposure System.
•The Contact Sensor to scan document
•The Reader Motor (M701), the Drive Pulley, the Drive Belt, to shift the Contact Sensor
In image scanning control, the Contact Image Sensor is shifted by rotating the Reader Motor based on the drive signal from the Engine Controller PCB and scan the original on the Copyboard Glass. When ADF is in use, image is scanned by feeding the originals by ADF instead of shifting the Contact Image Sensor.
Drive belt
Drive pulley
Reader motor (M701)
|
Drive pulley |
Contact sensor |
F-2-2
2-5
2Technical Overview > Document Exposure / Delivery System
2Technical Overview > Document Exposure / Delivery System > Document Feeder System > Pickup/Feed/Delivery Operation
Document Feeder System
■■Pickup/Feed/Delivery Operation
The Auto Document Feeder (ADF) mounted onto this host machine is dedicated to streamreading.
1 Motor (DADF Motor: M702) is engaged in pickup/feeding/delivery.
At the start of copy/fax/scan, the DADF Motor (M702) is driven by the drive command from the Main Controller PCB to pickup/feed the originals set face up on the original tray one by one in order from the top. The original is scanned by the Contact Image Sensor when moving through the Copyboard Glass, and then delivered face down to the original delivery assembly.
PS703
PS702
|
DES GND +3.3V |
DS GND +3.3V |
|
|
J910 |
||
|
121110 9 8 |
7 |
|
|
MCON |
F-2-3
Operation at Duplex Reading
— Pickup to Reading of the 1st side
— Reverse to Reading of the 2nd side
— Delivery
2-6
F-2-4
F-2-5
F-2-6
2-6
2Technical Overview > Document Exposure / Delivery System > Document Feeder System > Pickup/Feed/Delivery Operation
|
2 |
Technical Overview > Document Exposure / Delivery System > Document Feeder System > Original Detection |
2-7 |
||
|
■■Original Detection |
||||
|
PS703 |
There are two types of Original Detection in this Equipment.
|
1. Original Presence / Absence Detection |
PS702 |
|||
|
Detected by DS (Document Sensor: PS703) |
||||
|
Setting the original onto the original tray pushes up the actuator, activating (light shielded |
||||
|
=>light transmitted) the DS (PS703), and resulting in detection of the |
||||
|
presence of original. |
||||
|
2. Detection of the End of the Original |
DES GND +3.3V |
DS GND +3.3V |
||
|
Detected by the DES (Document End Sensor: PS702) |
||||
|
J910 |
||||
|
The leading edge of the original that is fed pushes up the actuator, activating the DES (PS702) |
||||
|
121110 9 8 |
7 |
|||
|
(light shielded =>light transmitted) and resulting in detection of the reach of the leading edge |
||||
|
MCON |
||||
|
of original. Furthermore, when the trailing edge of the original passes the actuator position, |
||||
|
the actuator returns to the original position, inactivating the DES (PS702) (light transmitted => |
||||
|
light shielded). The trailing edge of the original is detected by this mechanism. The original |
F-2-7 |
|||
|
length that can be scanned with this equipment is less than 400 mm. Passing of the original |
||||
|
longer than this results in jam stop. The original length is calculated by the time it takes from |
||||
|
detection of the leading edge of the original to detection of the trailing edge of the original.. |
NOTE:
There is no function to detect the original size (original width, length) in this equipment.
2-7
2Technical Overview > Document Exposure / Delivery System > Document Feeder System > Original Detection
2 Technical Overview > Document Exposure / Delivery System > Service Tasks > Service Notes
2-8
■■Jam Detection
The following cases are judged as jam.
1.In case of delay in reaching DS/DES or stationary during scanning of original
2.In case DS/DES is detected as ON at power-on (residual paper jam)
3.In case of detecting original of which length is 400 mm or longer
•Operation after Detection of Jam
The host machine stops scanning operation and displays «CHECK DOCUMENT» on the control panel.
In case of the model equipped with fax function (with built-in speaker), the warning beep occurs at the detection of jam.
•How to release Jam.
Remove the jammed paper and open / close the ADF upper cover
Service Tasks
■■Action for Parts Replacement
Outline of the measures is described in this section. For the detailed procedure, refer to the «Chapter 5».
●●Reader Unit
1)Enter the setting value of the Standard White Plate.
2)Execute the color/B&W AGC adjustment.
3)Execute the reading position adjustment.
4)Execute the white level adjustment.
5)Enter the value on the label packed with the part in the service mode item.
6)Execute the image reading adjustment at ADF reading.
●●Reader Upper Cover Unit (Copyboard Glass)
1)Enter the value on the label affixed on the glass in the service mode item.
2)Execute the reading position adjustment.
3)Execute the white level adjustment.
●●Contact Sensor Unit
1)Execute the color/B&W AGC adjustment.
2)Execute the auto detection of the reading position at DF stream reading.
3)Execute the white level adjustment.
4)Execute the image reading position adjustment.
5)Execute the image reading adjustment at ADF reading.
■■Maintenance
No periodically replaced parts, durable parts or periodical service is set for this product.
■■Service Notes
None
2-8
2Technical Overview > Document Exposure / Delivery System > Service Tasks > Service Notes
|
2 |
Technical Overview > Controller System > Controls > Outline |
2-9 |
||
Controller System |
||||
Controls |
Outline
■■Outline
The Engine controller controls the operational sequence of the printer.
|
The Engine Control System controls all the other systems according to commands from the |
Block diagram of the Engine controller and table of the electrical components are shown |
||||||||||||||||||||||
|
Main Controller. |
below. |
||||||||||||||||||||||
|
The Engine Control System contains the following components: |
|||||||||||||||||||||||
|
• |
DC Controller |
Engine controller |
|||||||||||||||||||||
|
• |
Low-voltage Power Supply |
||||||||||||||||||||||
|
• |
High-voltage Power Supply |
AC input |
|||||||||||||||||||||
|
Block diagram of the Engine Control System is shown below. |
|||||||||||||||||||||||
|
Motor |
|||||||||||||||||||||||
|
Switch |
Low-voltage |
||||||||||||||||||||||
|
Engine Control System |
|||||||||||||||||||||||
|
Laser exposure system |
power supply |
||||||||||||||||||||||
|
Fan |
|||||||||||||||||||||||
|
Engine controller |
Fixing unit |
||||||||||||||||||||||
|
Solenoid |
|||||||||||||||||||||||
|
DC controller |
Image formation system |
DC controller |
|||||||||||||||||||||
|
Transfer roller |
High-voltage |
Photointerrupter |
|||||||||||||||||||||
|
Main Controller |
Low-voltage |
||||||||||||||||||||||
|
power supply |
|||||||||||||||||||||||
|
power supply |
|||||||||||||||||||||||
|
Pickup / Feed System |
Cartridge |
||||||||||||||||||||||
|
High-voltage |
|||||||||||||||||||||||
|
power supply |
Option |
||||||||||||||||||||||
|
Laser scanner |
||
|
Option |
unit |
|
|
Main |
||
|
controller |
||
|
Operation panel |
||
|
F-2-9 |
||
|
F-2-8 |
2-9
2Technical Overview > Controller System > Controls > Outline
2Technical Overview > Controller System > Controls > Motor / Fan Control
|
Symbol for component |
Component |
Remarks |
|
|
Fan |
FM3 |
Controller Fan |
|
|
FM201 |
Main Fan |
||
|
FM203 |
Controller Fan |
||
|
Motor |
M201 |
Main Motor |
|
|
Solenoid |
SL201 |
Cassette Pickup Solenoid |
|
|
SL202 |
Duplex Reverse Solenoid |
— |
|
|
SL203 |
MP Tray Pickup Solenoid |
— |
|
|
Switch |
SW1 |
Power Switch |
— |
|
SW2 |
Door Switch |
— |
|
|
Photointerrupter |
PS201 |
Duplex Reverse Sensor |
— |
|
PS202 |
MP Tray Media Presence Sensor |
— |
|
|
PS203 |
Cassette Media Presence Sensor |
— |
|
|
PS204 |
TOP Sensor |
— |
|
|
PS205 |
Media Width Sensor |
— |
|
|
PS206 |
FD Tray Media Full Sensor |
— |
|
|
PS915 |
Fixing Delivery Sensor |
— |
T-2-4
2-10
■■Motor / Fan Control
The printer has one Motor for media feed and image formation.
Arrangement of Motor and the specifications are shown below.
FM201
FM203
M201
|
F-2-10 |
||||
|
Description |
Driving part |
Failure detection |
||
|
M201 |
Main Motor |
Roller in the printer and rollers in the paper feeder |
Yes |
|
|
FM201 |
Main Fan |
|||
|
FM203 |
Controller Fan |
|||
|
T-2-5 |
2-10
2Technical Overview > Controller System > Controls > Motor / Fan Control
2Technical Overview > Controller System > Low-voltage Power Supply > Outline
■■Failure Detection
|
Failure Point |
Cause of Failure |
|
Main Motor |
In the case that the speed of Motor does not reach the specified speed after the |
|
specified time has passed since the startup of the Main Motor. |
|
|
Main Fan |
In the case that the Fan has been locked continuously for the specified period of |
|
time since the startup of the Main Fan Motor. |
|
|
T-2-6 |
2-11
Low-voltage Power Supply
■■Outline
The Low-voltage power supply converts AC Power from the power receptacle into DC Power to cover the DC loads.
Block diagram of the Low Voltage Power Supply is shown below.
Power switch (SW1)
Engine controller
|
Low-voltage power supply |
|||||
|
Noise |
Fixing |
||||
|
control |
Fixing unit |
||||
|
filter |
circuit |
||||
|
Fuse |
High-voltage |
||||
|
(FU101) |
|||||
|
power supply |
|||||
|
Fuse (FU1002) |
Fuse (FU1001) |
||||
|
+24P1 |
|||||
|
DOOR |
Main motor, etc. |
||||
|
Noise filter |
SNS |
FET |
|||
|
+24U |
|||||
|
+24V generation |
+24V |
||||
|
circuit |
Door switch |
||||
|
(SW301) |
|||||
|
FET |
+24V_S |
||||
|
+5V |
|||||
|
generation |
+5V |
||||
|
Protection |
circuit |
Main controller |
|||
|
circuit |
+3.3V |
+3.3V |
|||
|
generation |
+3.3V |
||||
|
circuit |
DC controller |
||||
|
F-2-11 |
|||||
|
2-11 |
2Technical Overview > Controller System > Low-voltage Power Supply > Outline
2 Technical Overview > Controller System > Low-voltage Power Supply > Power-Saving Mode
2-12
■■Protective Function
The Low-voltage Power Supply has a protective function against overcurrent and overvoltage to prevent failures in the power supply circuit. If there flows an overcurrent or an overvoltage, the system automatically cuts off the output voltage.
If the DC Power is not being supplied from the Low-voltage Power Supply, the protective function may
be running. In such case, turn off the power switch and unplug the power cord. Do not plug in the power cord or turn the power switch on again until the root cause is found.
In addition, two fuses in the Low-voltage Power Supply protect against overcurrent. If overcurrent lows into the AC line, the fuse blows and cuts off the power distribution.
■■Safety
For user and service technician’s safety, the printer has a function to interrupt 24V power supply.
The door switch is turned off and 24V power supply to the Fixing Unit and the High-voltage Power Supply Unit stops under the following condition:
• If the cartridge door is opened (SW2 is turned off)
■■Low-voltage Power Supply Unit Failure Detection
The DC Controller determines a Low-voltage power supply unit failure and stops +24V output. Once 24V output is stopped, 3.3V of the engine CPU stops, so notification is not made. Likely, 3.3V of the controller stops, so the machine seems power-off.
•+24V is higher than a specified voltage
•+3.3V is higher than a specified voltage
•+5V is higher than a specified voltage
■■Power-Saving Mode
This is the function to save power consumed by the printer.
The table below lists various power-saving modes.
Power-Saving Mode |
Status |
|
Stand-by |
at power-OFF on the reader |
|
Power-saving (3W) |
at power-off on the reader, the engine and the display (LCD) |
|
The main controller enters the power-saving mode. |
|
T-2-7 |
|||||
|
Power-ON status |
Service error |
||||
|
Power-OFF |
|||||
|
Power-saving status |
|||||
|
Power- |
Power- |
Power-OFF status |
Service error |
||
|
OFF |
ON |
||||
|
Standby |
The condition that |
||||
|
there is no service error. |
|||||
|
Operation |
|||||
|
Reader |
[1] |
Sleep3 |
|||
|
panel |
[2] |
||||
|
Sleep1 |
|||||
|
Power-saving |
|||||
|
[1] |
[2] |
||||
|
[1] [3] |
|||||
|
Engine |
|||||
|
Coin |
Automatic transition |
||||
|
Main |
Vender |
depending on the condition |
|||
|
controller |
|||||
|
[4] |
Sleep2 |
||||
|
Printing |
Automatic transition |
||||
|
[4] |
depending on the condition |
||||
|
[4] |
|||||
|
[4] |
|||||
|
F-2-12 |
|||||
|
[1] |
Press [Power-saving] key. |
[3] Detects hook. |
|||
|
(Power-saving release) |
|||||
|
[2] |
Enters auto-sleep status. |
[4] Start / complete jobs. |
2-12
2Technical Overview > Controller System > Low-voltage Power Supply > Power-Saving Mode
2 Technical Overview > Controller System > Service Tasks > Service Notes
2-13
Service Tasks
■■Action for Parts Replacement
Outline of the measures is described in this section. For the detailed procedure, refer to the «Chapter 5 .»
●●After Replacing Main Controller PCB
• Before replacing PCBs
Back up user data (settings / registered data, etc.) and Service mode data for setting / registration after replacing PCBs. Take notes of data unable to back up.
• After replacing PCBs
1)Enter all items written on the service label.
2)Setting of destination / paper size groups
3)Execute COPIER > FUNCTION > CLEAR > ALL.
4)Import the back up data before replacement.
■■Maintenance
No periodically replaced parts, durable parts or periodical service is set for this product.
■■Service Notes
None
2-13
2Technical Overview > Controller System > Service Tasks > Service Notes
2Technical Overview > Laser Exposure System > Service Tasks > Service Notes
Laser Exposure System
Outline
The Laser Exposure System forms a latent image on the photosensitive drum according to the VIDEO signals sent from the Main Controller.
The main components of the Laser Scanner are the Laser Unit and the Scanner Motor Unit, which are controlled by the signals sent from the Engine Controller.
Diagram of the Laser Scanner Unit is shown below.
Engine controller
DC controller
|
signal |
Main controller |
||
|
MOT OR SPEED CONTROL |
LASER CONTROL signal |
VIDEO signal |
BD INPUT signal |
|
SCANNER |
Laser unit |
||
|
Scanner mirror |
|||
|
BD sensor |
Scanner motor unit
2-14
Optical Unit Failure Detection
The Optical Unit failure detection manages the Laser Scanner failure detection functions. The Engine Controller determines an Optical Unit failure and notifies the Main Controller if the Laser Scanner encounters the following conditions:
•After the drive of Scanner Motor, BD within a specified period is not detected.
•If the Scanner Motor does not reach a specified rotation within a specified period of startup.
•If an out of specified BD interval is detected during a print operation.
Service Tasks
■■Action for Parts Replacement
No work is required at parts replacement of this product.
■■Maintenance
No periodically replaced parts, durable parts or periodical service is set for this product.
■■Service Notes
●●Point to Note When Replacing the Laser Scanner Unit
Do not disassemble the Laser Scanner Unit in the field because it has been adjusted in the factory.
Otherwise, it may cause image fault such as color displacement. (You need to replace the Laser Scanner Unit in that case.)
Photosensitive drum
F-2-13
2-14
2Technical Overview > Laser Exposure System > Service Tasks > Service Notes
2Technical Overview > Image Formation System > Image Formation Process > Outline
Image Formation System
Outline
The Image-Formation System forms a toner image on print media.
The following are the main components of the Image-Formation system:
•Cartridge
•Transfer Roller
•Fixing Unit
•Laser Scanner
The Engine Controller controls the Laser Scanner and High-voltage power supply to form the toner image on the photosensitive drum. The image is transferred to the print media and fixed.
Diagram of the image formation system is shown below.
Laser scanner
Laser beam
|
Fixing unit |
Photosensitive drum |
|
|
Pressure roller |
||
|
Transfer roller |
Engine controller
High-voltage power supply
DC controller
F-2-14
2-15
Image Formation Process ■■Outline
Image Formation Process The Image-Formation process consists of the following seven steps divided among five functional blocks:
Latent Image Formation Block
Step 1: Primary charging
Step 2: Laser-beam exposure
Developing Block
Step 3: Developing
Transfer Block
Step 4: Transfer
Step 5: Separation
Fixing Block
Step 6: Fixing
Drum Cleaning Block
Step 7: Drum cleaning
|
Media path |
Latent image formation |
|||
|
Direction of |
2. Laser-beam exposure |
|||
|
the drum rotation |
||||
|
Block |
||||
|
Step |
Developing |
|||
|
1. Primary charging |
||||
|
3. Developing |
||||
|
Drum cleaning |
||||
|
7. Drum cleaning |
||||
|
Delivery |
6. Fixing |
5. Separation |
4.Transfer |
Pickup |
|
Fixing |
Transfer |
|||
|
F-2-15 |
2-15
2Technical Overview > Image Formation System > Image Formation Process > Outline
2 Technical Overview > Image Formation System > Image Formation Process > Developing Block
2-16
■■Latent Image Formation Block
During the two steps that comprise this block, an invisible latent image is formed on the photosensitive drum.
Step 1: Primary Charging
To prepare for latent image formation, the surface of the photosensitive drum is charged with a uniform negative potential. The primary charging bias is applied to the primary charging roller and the roller charges the drum directly.
Primary charging roller
|
Photosensitive drum |
Primary charging bias |
■■Developing Block
Toner adheres to the electrostatic latent image on the photosensitive drum, which becomes visible.
Step 3: Developing
Toner acquires a negative charge from the friction that occurs when the developing roller rotates against the developing blade. The negatively charged toner is attracted to the latent image on the photosensitive drum surface because the drum surface has a higher potential. The developing bias is applied to the developing roller.
Blade 
Developing rolle
F-2-16
Step 2: Laser-beam Exposure
The laser beam scans the photosensitive drum to neutralize the negative charge on portions of the drum surface. An electrostatic latent image forms where the negative charge was neutralized.
Laser beam
|
Exposed |
Unexposed |
||
|
Unexposed |
area |
area Exposed |
Developing bias |
|
area |
area |
Photosensitive drum
F-2-18
|
Unexposed area |
Exposed area |
|||
F-2-17
2-16
2Technical Overview > Image Formation System > Image Formation Process > Developing Block
2 Technical Overview > Image Formation System > Image Formation Process > Drum Cleaning Block
2-17
■■Transfer Block
During the two steps that comprise this block, a toner image on the photosensitive drum is transferred to the print media.
Step 4: Transfer
The transfer bias is applied to the transfer roller to charge the print media positive. The positively charged media attracts the negatively charged toner from the photosensitive drum surface.
Photosensitive
drum
Media
Transfer roller
Transfer bias
F-2-19
Step 5: Separation
The elasticity of the print media and the curvature of the photosensitive drum cause the media to separate from the drum surface. The static charge eliminator reduces back side static discharge of the media for stable media feed and image quality.
Photosensitive
drum
Media
|
Static charge |
|
|
eliminator |
Transfer roller |
■■Fixing Block
The toner image is fixed onto the print media.
Step 6: Fixing
The printer uses an on-demand Fixing method. The toner image is permanently affixed to the print media by heat and pressure. The Fixing bias is applied to the Fixing Film to improve image quality.
|
Fixing film |
Fixing heater |
Toner
Media
Pressure roller
Fixing bias
F-2-21
■■Drum Cleaning Block
The residual toner is cleared from the photosensitive drum surface.
Step 7: Drum Cleaning
The cleaning blade scrapes the residual toner off the surface of the photosensitive drum. The residual toner is deposited in the toner collection box.
Cleaning blade
|
Photosensitive |
|
|
Toner |
drum |
|
collection box |
2Technical Overview > Image Formation System > Image Formation Process > Drum Cleaning Block
2Technical Overview > Image Formation System > Service Tasks > Notes on Field Service
High-voltage Power Supply
■■Outline
The High-voltage Power Supply applies biases to the following components:
•Primary Charging Roller
•Developing Roller
•Transfer Roller
•Fixing Flm
The Engine controller controls the High-voltage Power Supply to generate biases.
Engine controller
|
DC controller |
High-voltage |
Fixing unit |
|
|
power supply |
|||
|
Fixing film |
|||
|
Pressure roller |
|||
|
Primary |
FB |
Cartridge |
|
|
charging |
PR |
Primary charging roller |
|
|
bias circuit |
|||
|
Developing roller |
|||
|
Developing |
DV |
Photosensitive |
|
|
bias circuit |
|||
|
drum |
|||
|
Transfer roller |
|||
|
Transfer |
TR |
||
|
bias circuit |
2-18
Service Tasks
■■Action for Parts Replacement
No work is required at parts replacement of this product.
■■Maintenance
No periodically replaced parts, durable parts or periodical service work is set for this product.
■■Notes on Field Service
None
2-18
2Technical Overview > Image Formation System > Service Tasks > Notes on Field Service
2Technical Overview > Fixing System > Outline
Fixing System
Outline
The Fixing/Delivery Unit fixes the toner onto a print paper and delivers it to the Delivery Tray. The operation of the Fixing/Delivery Unit is explained in the following.
1)The print paper fed from the Pickup/Feed Unit is fused the toner by the Fixing Film and the pressure roller.
2)The print paper delivered from the Fixing Assembly is delivered to the face-down Delivery Tray or the face-up Delivery slot. When the engine controller detects that the heater temperature reaches 50 deg C after the last rotation is completed, it drives the main Motor for 50 msec. and dislocates the nip part. This prevents the toner adhering to the pressure roller.
The Fixing Assembly of this printer utilizes the on-demand Fixing method. It is structured as shown below.
— Heater:
This Fixing Assembly incorporates one heater.
Fixing Heater (H201/2010): To heat the Fixing Film (ceramic heater) — Thermistor:
This Fixing Assembly incorporates one thermistor.
Thermistor (TH1/11): Sit almost at the center of the Fixing Film. (contact type) To control the temperature of the Fixing Film
— Thermal switch:
Thermoswitch (TP201/2010): Sit almost at the center of the Fixing Film (contact type) If the temperature of the heater rises abnormally high, the contact gets broken and cuts off the AC Voltage Supply to the Fixing Heater to interrupt the power supply to the heater.
2-19
The temperature control of the Fixing Assembly incorporated as above is operated by the Fixing temperature control circuit according to the command from the CPU (IC201) on the DC Controller.
The followings describe the each circuit and function of the temperature control of the Fixing Assembly.
Fixing unit
Fixing film
Thermistor
Fixing heater
Thermoswitch
Pressure roller
|
FIXING TEMPERATURE CONTROL signal |
FIXING TEMPERATURE DETECTION signal |
|
Fixing temperature |
CPU |
|
|
control circuit |
||
|
Engine controller PCB |
F-2-23
2-19
2Technical Overview > Fixing System > Outline
|
2 |
Technical Overview > Fixing System > Fixing Control Circuit > Throughput Reduction Control |
2-20 |
||
Fixing Control Circuit |
||||
|
■■Throughput Reduction Control |
The Fixing control circuit controls the temperature in the Fixing Assembly. The printer uses an on-demand Fixing method.
The figure below shows the configuration of the Fixing control circuit.
|
H201/2010 |
Fixing film |
|
|
TP1/11 |
||
TH201/2010
Pressure roller
FIXING TEMPERA TURE signal
FIXNG HEATER CONTROL signal
|
Fixing heater |
Fixing heater |
|
|
DC controller |
control circuit |
safety circuit |
|
Fixing control circuit |
||
|
Low-voltage power supply unit |
||
|
Engine controller |
||
|
F-2-24 |
•Fixing Heater (H201/2010): Heats the Fixing Film
•Thermistor (TH1/11): Detects Fixing temperature (Contact type)
•Thermoswitch (TP201/2010):Prevents an abnormal temperature rise of the Fixing Heater (Contact type)
These temperature controls in the Fixing Assembly are performed by the Fixing Heater control circuit and the Fixing Heater safety circuit according to the commands from the DC Controller.
During continuous printing, the throughput is changed to reduce heat buildup on parts not in contact with paper, to improve Fixing characteristics and reduce curling.
The throughput reduction is implemented according to the following conditions.
●●Small Size Paper Speed Control
|
Fixing Mode |
Throughput |
||||
|
ENVELOPE |
1 — 2 imprints |
3 — 4 imprints |
5 imprints |
6 imprints or |
|
|
17 ppm |
12 ppm |
8 ppm |
more |
||
|
6 ppm |
|||||
|
ENVELOPE2 |
1 — 3 imprints |
4 — 7 imprints |
8 — 22 imprints |
23 imprints or |
|
|
17 ppm |
12 ppm |
8 ppm |
more |
||
|
6 ppm |
|||||
|
ENVELOPE3 |
1 — 3 imprints |
4 — 5 imprints |
6 imprints or |
||
|
12 ppm |
8 ppm |
more |
|||
|
6 ppm |
|||||
|
Postcard |
1 — 3 imprints |
4 — 5 imprints |
6 imprints or |
||
|
12 ppm |
8 ppm |
more |
|||
|
6 ppm |
|||||
|
Long Narrow |
|||||
|
Normal/Light/OHT |
1 — 280 imprints |
281 imprints or |
|||
|
2 ppm |
more |
||||
|
1 ppm |
|||||
|
Label/Heavy1/Heavy2 |
1 imprints or more |
||||
|
Envelope/ Envelope2/ |
3 ppm |
||||
|
Envelope3 |
|||||
|
●●16K Paper Speed Control |
T-2-8 |
||||
|
Fixing Mode |
Throughput |
||||
|
Normal/Light/ |
1 — 27 imprints |
28 — 39 imprints |
40 — 79 imprints |
80 — 199 |
200 imprints or |
|
OHT |
16 ppm |
14 ppm |
12 ppm |
imprints |
more |
|
(Normal mode) |
10 ppm |
8 ppm |
|||
|
Normal/Light/ |
1 imprints or |
||||
|
OHT |
more |
||||
|
6 ppm |
|||||
|
Envelope2/ |
1 — 89 imprints |
90 imprints or |
|||
|
Quiet |
17 ppm |
more |
|||
|
14 ppm |
|||||
|
Label/ |
1 — 34 imprints |
35 imprints or |
|||
|
Envelope/ |
17 ppm |
more |
|||
|
Envelope3 |
8 ppm |
||||
|
Heavy1/ |
|||||
|
Heavy2/ |
|||||
|
Postcard |
|||||
|
T-2-9 |
2-20
2Technical Overview > Fixing System > Fixing Control Circuit > Throughput Reduction Control
2Technical Overview > Fixing System > Fixing Control Circuit > Protective Function
■■Fixing Temperature Control
The Fixing temperature control maintains the temperature of the Fixing Heater at its targeted temperature.
Block diagram of this control is shown below.
Engine controller
Low-voltage power supply
|
Fixing control circuit |
DC controller |
||
|
Frequency |
FREQSNS |
||
|
detection circuit |
|||
|
+24V |
Fixing heater |
FSRD |
|
|
control circuit |
|||
|
Relay |
RLYD |
||
|
control |
|||
|
circuit |
RL101 |
||
|
Fixing heater |
FSRTH |
||
|
safety circuit |
Fixing film unit
|
TH1 TP1 |
H1: Fixing heater |
Pressure roller TP1: Thermoswitch
TH1: Thermistor
Fixing unit
F-2-25
2-21
The DC Controller monitors the FIXING TEMPERATURE (FSRTH) signal and sends the FIXING HEATER CONTROL (FSRD) signal according to the detected temperature. The Fixing Heater control circuit controls the Fixing Heater depending on the signal so that the heater remains at the targeted temperature.
■■Protective Function
The protective function detects an abnormal temperature rise in the Fixing Assembly and interrupts power supply to the Fixing Heater.
The following three protective components prevent an abnormal temperature rise of the Fixing Heater:
•DC Controller
•Fixing Heater safety circuit
•Thermoswitch
1) DC Controller
The DC Controller monitors the detected temperature of the thermistor. The DC Controller
makes the FIXING HEATER CONTROL signal inactive and releases the relay to interrupt power supply to the Fixing Heater under the following condition:
2) Fixing Heater safety circuit
The Fixing Heater safety circuit monitors the detected temperature of the thermistor. The Fixing Heater safety circuit releases the relay control circuit to interrupt power
supply
to the Fixing Heater under the following condition:
3) Thermoswitch
The contact of the thermoswitch is broken to interrupt power supply to the Fixing Heater under the following condition:
2-21
2Technical Overview > Fixing System > Fixing Control Circuit > Protective Function
2Technical Overview > Fixing System > Service Tasks > Notes On Service Works
■■Failure Detection
The DC Controller determines a Fixing Assembly failure, makes the FIXING HEATER CONTROL signal inactive, releases the relay to interrupt power supply to the Fixing Heater and notifies the formatter of a failure state when it encounters the following conditions:
1) Start-up failure
•If the detected temperature of the thermistor is kept a specified degrees or higher for a specified period of heater start-up during the wait period.
•If the detected temperature of the thermistor is kept a specified degrees or lower for a specified period under the heater temperature control during the print period.
•If the detected temperature of the thermistor does not reach its targeted temperature within a specified period under the heater temperature control during the initial rotation period.
2) Abnormal low temperature
•If the detected temperature of the thermistor is kept a specified degrees or lower for a specified period under the heater temperature control.
3) Abnormal high temperature
•If the detected temperature of the main thermistor is kept a specified degrees or higher for a specified period.
4) Drive circuit failure
•If a specified frequency of the FREQUENCY signal is not detected within a specified period after the printer is turned on.
2-22
Service Tasks
■■At Parts Replacement
No work is required for this product at parts replacement.
■■Maintenance
No periodically replaced parts, durable parts or periodical service is set for this product.
■■Notes On Service Works
•When removing the Fixing Assembly, perform the operation after the Fixing Assembly is surely cooled. The Fixing Assembly just after printing may cause burn injury.
•Do not disassemble the Fixing Assembly at a field. It may cause a malfunction.
2-22
2Technical Overview > Fixing System > Service Tasks > Notes On Service Works
2Technical Overview > Pickup / Feed System > Drive Configuration
Pickup / Feed System
Outline
The Media Feed System picks up, feeds and delivers the print media. It consists of several types of rollers.
The Duplex Feed Unit in the Duplex model reverses and Refeeds the print media to print on both sides of media.
The media path is shown below.
Face-down delivery roller
|
Fixing film |
MP tray separattion roller |
|||
|
Photosensitive drum |
||||
|
Pressure |
||||
|
roller |
Transfer roller |
Registration roller |
||
|
Fixing delivery roller |
MP tray |
|||
|
Duplex re-pickup roller |
separattion pad |
|||
|
Duplex feed roller |
||||
|
Cassette pickup roller |
Cassette |
|||
|
separation pad |
: Simplex media path
: Duplex media path
F-2-26
2-23
Drive Configuration
Diagram and table of the electrical components are shown below.
|
SL202 |
||
|
PS206 |
M201 |
SL203 |
|
PS915 |
||
|
PS202 |
||
|
PS201 |
PS205 |
|
|
PS204 |
||
|
PS203 |
||
|
SL201 |
||
|
F-2-27 |
||
|
Electrical component |
Symbol |
Signal |
|
Main Motor |
M201 |
Main Motor Control Signal |
|
Cassette Pickup Solenoid |
SL203 |
Cassette Pickup Solenoid Control Signal |
|
MP Tray Pickup Solenoid |
SL201 |
MP Tray Pickup Solenoid Control Signal |
|
Duplex Reverse Solenoid |
SL202 |
Duplex Reverse Solenoid Control Signal |
|
TOP Sensor |
PS204 |
TOP Signal |
|
Cassette Media Presence Sensor |
PS203 |
Cassette Media Presence Signal |
|
MP Tray Presence Sensor |
PS202 |
MP Tray Media Presence Signal |
|
Fixing Delivery Sensor |
PS915 |
Fixing Delivery Signal (100V) |
|
PS9150 |
Fixing Delivery Signal (230V) |
|
|
Duplex Reverse Sensor |
PS201 |
Duplex Reverse Signal |
|
FD Tray Media Full Sensor |
PS206 |
FD Tray Media Full Signal |
|
Media Width Sensor |
PS205 |
Media Width Signal |
T-2-10
2-23
2Technical Overview > Pickup / Feed System > Drive Configuration
2 Technical Overview > Pickup / Feed System > Jam Detection > Outline
2-24
Jam Detection ■■Outline
Jam Detection The printer uses the following sensors to detect the presence of media and to check whether media is being fed correctly or has jammed:
•TOP Sensor (PS204)
•Fixing Delivery Sensor (PS915)
•Duplex Reverse Sensor (PS201)
• Media Width Sensor (PS205)
: Simplex media path
: Duplex media path
F-2-28
2-24
2Technical Overview > Pickup / Feed System > Jam Detection > Outline
2Technical Overview > Pickup / Feed System > Service Tasks > Notes On Service Works
■■Pickup Delay Jam
When the TOP Sensor (PS204) cannot detect the leading edge of paper within the specified time after starting pickup from a cassette, pickup retry is executed twice. After that, the sensor still cannot detect the leading edge of paper within the specified time, it is judged as a pickup jam.
■■Pickup Stationary Jam
When the TOP Sensor (PS204) cannot detect the trailing edge of paper after the specified time has passed since it detected the leading edge of paper, it is judged as a pickup stationary jam.
■■Delivery Delay Jam
When the Fixing Delivery Sensor (100V:PS915, 230V:PS9150) cannot detect the leading edge of paper after the specified time has passed since the TOP Sensor (PS204) detected the leading edge of paper, it is judged as a delivery delay jam.
■■Delivery Stationary Jam
After judging that it is not a Fixing paper wrap, execute the detection of delivery stationary jam.
When the Fixing Delivery Sensor (100V:PS915, 230V:PS9150) does not detect no paper within the specified time since the TOP Sensor (PS204) detected the trailing edge of paper, it is judged as a delivery stationary jam.
■■Fixing Paper Wrap Jam
After judging that it is not a delivery delay jam, execute the detection of Fixing paper wrap jam.
It is judged as a Fixing paper wrap jam when all of the following conditions are met: after the specified time had passed since the Fixing Delivery Sensor (100V:PS915, 230V:PS9150) detected the leading edge of paper, after the specified time had passed since the TOP Sensor (PS204) detected the leading edge of paper, and the Fixing Delivery Sensor (100V:PS915, 230V:PS9150) detects no paper.
2-25
■■Reverse Delay Jam
After judging that it is not a delivery stationary jam, execute the detection of reverse stationary jam.
When the Duplex Reverse Sensor (PS201) does not detect paper after the specified time has passed since the Fixing Delivery Sensor (100V:PS915, 230V:PS9150) detected the trailing edge of paper, it is judged as a reverse delay jam.
■■Reverse Stationary Jam
When the Duplex Reverse Sensor (PS201) cannot detect the trailing edge of paper after the specified time has passed since the sensor detected the leading edge of paper, it is judged as a reverse stationary jam.
■■Internal Residual Jam
When a paper is detected by the TOP Sensor (PS204), Fixing Delivery Sensor (100V:PS915, 230V:PS9150), Paper Width Sensor (PS205), or Duplex Reverse Sensor (PS201) at the time of starting initial rotation, it is judged as an internal residual jam.
■■Door Open Jam
When a door-open is detected while feeding papers, it is judged as a door open jam.
Service Tasks
■■At Parts Replacement
No work is accompanied with parts replacement.
■■Maintenance
No periodically replaced parts, durable parts or periodical service is set for this product.
■■Notes On Service Works
No periodically
2-25
2Technical Overview > Pickup / Feed System > Service Tasks > Notes On Service Works
2Technical Overview > Embedded RDS > Service cautions
Embedded RDS
Product Overview
■■Overview
Embedded RDS (hereafter, referred to as E-RDS, which stands for EMBEDDED-RDS) is a network module embedded with a customer’s device and enables e-Maintenance (Remote Diagnosis System), which can collect and transmit status changes, counter values, error logs, and consumable information such as the toner low/ out of the device to a remote maintenance server called UGW (Universal Gateway Server) via Internet.
The following device information/ status can be monitored.
•Service mode counter (Billing counts)
•Global click counter
•Parts counter
•Mode counter
•Firmware info
•Service call error log
•Jam log
•Alarm log
•Status changes (Toner low/ out, etc.)
Since high confidentiality is required for the information shown above, it performs SOAP protocol.
Communication with UGW using HTTPS / SOAP
|
Internet |
||
|
W |
||
|
DNS Server |
Proxy Server |
Firewall |
Device
Intranet
RDS
F-2-29
2-26
■■Features and benefits
E-RDS embedded with a network module in advance can realize a front-end processing of e-Maintenance system without attaching any extra hardware equipment.
Service cautions
1)After performing the following service actions, it is necessary to perform initializing E-RDS settings (ERDS-DAT) and communication test (COM-TEST).
Failure to do so will result that the counter transmitting value to the UGW may become unusual.
•System upgrade
•HDD format and system installation
•RAM clear of MNCON PCB SRAM Board :
Also, after replacing the main controller board, all settings must be reprogrammed.
2)The following settings in service mode must not be change unless there are specific instructions to do so. Changing these values will cause error in communication with UGW.
•Set port number of UGW
[SERVICE MODE] > [COPIER] > [FUNCTION] > [INSTALL] > [RGW-PORT] Default : 443
2-26
2Technical Overview > Embedded RDS > Service cautions
2Technical Overview > Embedded RDS > E-RDS Setup > Steps to E-RDS settings
E-RDS Setup
■■E-RDS-related setting items (service mode)
●●E-RDS setting items
|
Item |
Description |
|
ERDS |
Set use/ no use of Embedded-RDS function |
|
(COPIER > FUNCTION > INSTALL) |
0: Function not used / 1: Function used |
|
e-Maintenance system to send device information, counter |
|
|
data, error statuses to the UGW. |
|
|
Note that the operation (such as global click counter, error |
|
|
information, etc.) can be restricted with the server settings. |
|
|
Default : 0 (Function not used) |
|
|
RGW-PORT |
Set port number of UGW |
|
(COPIER > FUNCTION > INSTALL) |
Validation : 1 to 65535 |
|
Default : 443 |
|
|
COM-TEST |
Execution of a communication test with UGW |
|
(COPIER > FUNCTION > INSTALL) |
Try connection to UGW, and judge whether or not the |
|
connection succeeded. |
|
|
COM-RSLT |
Display of the result of a communication test with UGW |
|
(COPIER > FUNCTION > INSTALL) |
The communication test result is displayed as «OK» or |
|
«NG». |
|
|
COM-LOG |
Display of information about a communication error with |
|
(COPIER > FUNCTION > INSTALL) |
UGW |
|
Error information of a connection failure with UGW is |
|
|
displayed. |
|
|
The time and date of occurrence of the error and the error |
|
|
code are displayed as error information. |
|
|
Max 5 latest loggings retained |
|
|
ERDS-DAT |
Initialization of E-RDS SRAM data |
|
(COPIER > FUNCTION > CLEAR) |
SRAM data of E-RDS is initialized and returned to the |
|
factory setting value at shipment. |
|
|
T-2-11 |
●●SERVICE CALL BUTTON setting items
|
Item |
Description |
|
SCALL-SW |
Display/ hide of Service Call button |
|
(COPIER > OPTION > USER) |
0: Hide / 1: Display |
|
To set whether to display or hide the Service Call button on |
|
|
the Control Panel. |
|
|
Default : 0 (Hide) |
|
|
SCALLCMP |
Set of service call completion notice |
|
(COPIER > OPTION > USER) |
When this item is set, service call completion is notified |
|
to UGW and the service call status retained internally is |
|
|
cleared. |
|
|
Default : 0 |
|
|
T-2-12 |
2-27
■■Steps to E-RDS settings
1.Start Service Mode.
1)Press Menu button on the control panel.
2)Press [2] and [8] buttons at a time on the control panel.
3)Press Menu button on the control panel.
2.Select [COPIER] > [FUNCTION] > [CLEAR] > [ERDS-DAT] and press [OK] button.
NOTE:
This operation initializes the E-RDS settings to factory setting values.
For the setting values to be initialized, see the section of “Initializing E-RDS settings”.
3. Select [COPIER] > [FUNCTION] > [INSTALL] > [ERDS], and set value «1» then press [OK].
NOTE:
This operation enables the communication function with UGW.
CAUTION:
The following settings i.e. RGW-PORT in Service mode must not be change unless there are specific instructions to do so.
Changing these values will cause error in communication with UGW.
4. Select [COM-TEST] and then press [OK].
NOTE:
This initiates the communication test between the device and the UGW.
5.Select [COM-RSLT] and then press [OK].
If the communication is successful, “OK” is displayed. If “NG” (failed) appears, refer to the “Troubleshooting“ and repeat until “OK” is displayed.
NOTE:
The communication results with UGW can be distinguished by referring to the COMLOG. By performing the communication test with UGW, E-RDS acquires schedule information and starts monitoring and meter reads operation.
2-27
2Technical Overview > Embedded RDS > E-RDS Setup > Steps to E-RDS settings
2 Technical Overview > Embedded RDS > E-RDS Setup > Steps to Request Service Call button settings
2-28
■■Steps to Request Service Call button settings
●●Steps for settings to display the Request Service Call button
In the case of supporting a service by the service call button, follow the instructions described below to display the Request Service Call button.
1. Start Service Mode.
For the procedures, see “Steps to E-RDS settings — step 1.“.
2. Select [COPIER] > [OPTION] > [USER] > [SCALL-SW], and set value «1» then press [OK].
NOTE:
When the function is enabled, the < Request Service Call > button is displayed on the counter check screen (displayed by pressing the [Counter] button).
●●Steps for settings of service call completion
When the service technician completes the work for the service call, follow the instruction as described below to execute the service call completion work.
1. Start Service Mode.
For the procedures, see “Steps to E-RDS settings — step 1.“.
2. Select [COPIER] > [OPTION] > [USER] > [SCALLCMP], and set value «1» then press [OK].
NOTE:
E-RDS generates an alarm of service call completion at this timing, and sends the alarm to UGW.
●●Steps for service call request
Users should follow the instructions as described below to request a service call.
CAUTION:
When a service call has been already requested, another service call cannot be sent.
The previous service call needs to be canceled, or a service person needs to perform processing for service call completion.
1.Press the [Counter] button on the control panel to display the counter check screen. Select < Request Service Call > button, and then press [OK].
2.Select a service you want to request on the service call request screen, and then press [OK]. The service call request setting screen will appear.
3.Select [Send Request] and then press [OK].
4.Select [Apply] and then press [OK].
NOTE:
E-RDS generates an alarm of service call request at this timing, and sends the alarm to UGW.
5.If the service call request is successful, “Time of Request” is displayed. If the service call request notification ended in failure, refer to «Troubleshooting», and repeat the procedure until the service call request notification is completed successfully.
●●Steps for service call cancellation
To cancel the service call, follow the instructions as described below.
1.Press the [Counter] button on the control panel to display the counter check screen. Select < Request Service Call > button, and then press [OK].
2.Select < Cancel Request > button and then press [OK]. Select [Yes] and then press [OK] in the check screen.
NOTE:
E-RDS generates an alarm of service call cancellation at this timing, and sends the alarm to UGW.
3. «The request has been canceled.» is displayed..
2-28
2Technical Overview > Embedded RDS > E-RDS Setup > Steps to Request Service Call button settings
2Technical Overview > Embedded RDS > E-RDS Setup > COM-LOG Report
■■Initializing E-RDS settings
It is possible to return E-RDS Settings to factory-shipments value.
●●Initialization procedure
1. Start Service Mode.
For the procedures, see “Steps to E-RDS settings — step 1.“.
2. Select [COPIER] > [FUNCTION] > [CLEAR] > [ERDS-DAT] and then press [OK].
●●Setting values and data to be initialized
The following E-RDS settings, internal data, and Alarm filtering information are initialized.
•COPIER > FUNCTION > INSTALL > ERDS
•COPIER > FUNCTION > INSTALL > RGW-PORT
•COPIER > FUNCTION > INSTALL > COM-LOG
2-29
■■COM-LOG Report
A report of communication error log information on five affairs can be output.
●●Report output procedure
1. Start Service Mode.
For the procedures, see “Steps to E-RDS settings — step 1.“.
2. Select [COPIER] > [FUNCTION] > [MISC-P] > [ERDS-LOG], and press [OK]. Output sample
19/05 2011 10:14AM
|
**************************** |
|||
|
*** E-RDS-COM-LOG *** |
|||
|
**************************** |
|||
|
No.01 |
DATE 19/05 2011 |
TIME 03:21 AM |
CODE 05000003 |
|
Information |
SUSPEND: Communication test is not performed. |
||
|
No.02 |
DATE 19/05 2011 |
TIME 03:21 AM |
CODE 00000000 |
|
Information |
SUSPEND: mode changed. |
||
|
No.03 |
DATE 19/05 2011 |
TIME 03:18 AM |
CODE 05000003 |
|
Information |
SUSPEND: Communication test is not performed. |
||
|
No.04 |
DATE 19/05 2011 |
TIME 03:18 AM |
CODE 00000000 |
|
Information |
SUSPEND: mode changed. |
||
|
No.05 |
DATE 19/05 2011 |
TIME 01:56 AM |
CODE 05000003 |
|
Information |
SUSPEND: Communication test is not performed. |
2-29
2Technical Overview > Embedded RDS > E-RDS Setup > COM-LOG Report
2Technical Overview > Embedded RDS > FAQ
FAQ
No.1
Q:In what case does a communication test with UGW fail?
A:The following cases can be considered in the becoming “NG“ case.
1.Name resolution was failed due to an incorrect host name or DNS server has been halted.
2.Network cable is blocked off.
3.Proxy server settings is not correct.
No.2
Q:I want to know the interval of data transmitting from E-RDS to the UGW, and what data size is sent to the UGW?
A:The schedule of data transmitting, the start time are determined by settings in the UGW side. The timing is once per 16 hours by default, and counter data volume could be maximum 250 bytes.
No.3
Q:Does error-retry carry out at the time of a communication error with the UGW?
A:Retry of SOAP communication is performed as follows.
•In the case of an error in SOAP communication (i.e. a trouble at UGW side) at transmission of the alarm code list and the service mode counter (postAlert) due to change of device status, the data failed in transmission equivalent to 3 retries is to be stored in the RAMDISK. In the case of anther transmission error (the 4th error), the oldest data of the stored data is deleted and the newly-generated retry data is stored in the RAMDISK.
•In the case of SOAP transmission errors as described below, the unsent (and remaining) data is sent again depending on the storage status of CPCA data:
•At transmission of a jam log and service mode counter (postJamLog) when the jam log was obtained from the device.
•At transmission of a service call log and service mode counter (postServiceCallLog)
NOTE:
The retry data will be sent at interval of 5*n minutes. (n: retries, 5, 10, 15 minutes…up to 30 minutes)
2-30
No.4
Q:How many log-data can be stored?
A:Up to 5 log data can be saved.
No.5
Q:Although Microsoft ISA as a proxy server is introduced, the authentication check is failed. Can E-RDS adopt with Microsoft ISA?
A:E-RDS must comply with “Basic” while “Integrated” authentication is used for Microsoft ISA (as default); therefore, authentication with E-RDS is available if you change the setting to “Basic” authentication on the server.
No.6
Q:Can I turn the device power off during the e-Maintenance system operation?
A:While operating the e-Maintenance system, the power of the device must be ON. If power OFF is needed, do not leave the device power OFF for long time.
It will become “Device is busy, try later” errors if the power supply of network equipment such as HUB is made prolonged OFF.
No.7
Q:How does E-RDS operate while the device is placed in the sleep mode?
A:While being in Real Deep Sleep, and if data to be sent is in E-RDS, the system wakes up asleep, then starts to send the data to the UGW. The system also waits for completion of data transmission and let the device to shift to asleep status again.
However, transition time to the Real Deep Sleep depends on the device, and the transition to sleep won’t be done if the next data transmission will be done within 1 minute.
No.8
Q:Is E-RDS compatible with Department counter?
A:No, E-RDS does not support Department counter.
No.9
Q:Can I make another service call request when I have already requested a service call?
A:No, you cannot make another service call request if you have already made a service call request.
Select < Cancel Request > button and then press [OK] to cancel the service call which you’d made. Or the service technician performs a service call request completion process.
2-30
2Technical Overview > Embedded RDS > FAQ
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