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Agilent Technologies 729-5001 Notice De Mode D'emploi
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Agilent Technologies 729-5001 Notice De Mode D'emploi

Agilent Technologies 729-5001 Notice De Mode D'emploi

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Ion Pumps Control Unit
(No Battery)
Model
729-5001
Manuale di Istruzioni
Bedienungshandbuch
Notice de Mode D'Emploi
User Manual
87-900-123-01 (B)
05/2011

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  • Page 1 Ion Pumps Control Unit (No Battery) Model 729-5001 Manuale di Istruzioni Bedienungshandbuch Notice de Mode D’Emploi User Manual 87-900-123-01 (B) 05/2011...
  • Page 2 Use, duplication or disclosure of Software is subject to The material contained in this Agilent Technologies’ standard © Agilent Technologies, Inc. 2011 document is provided “as is,” and is commercial license terms, and non- subject to being changed, without...
  • Page 3 Ion Pumps Control Unit (No Battery) Ion Pumps Control Unit (No Battery) Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B) 3/106...
  • Page 4 Ion Pumps Control Unit (No Battery) 4/106 Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B)

  • Page 5: Table Des Matières

    Contents Contents Procedura per l’installazione 9  Informazioni Generali 10  Descrizione del controller 11  Immagazzinamento 11  Preparazione per l’installazione 12  Installazione 13  Uso 14  Procedure di Uso 18  Modalità Operative 19  Messaggi di errore 21  Smaltimento 24  Anleitung zur Installation 25  Allgemeines 26 ...
  • Page 6 Contents Betriebsarten 35  Fehlermeldungen 37  Entsorgung 40  Procédure pour l’installation 41  Indications Generales 42  Description du Controleur 43  Emmagasinage 43  Préparation pour l'installation 44  Installation 45  Utilisation 47  Procedures d’utilisation 51  Modalite Operationnelle 52  Messages d’erreur 54  Mise au rebut 56 ...
  • Page 7 Contents Operating Modes 68  Error Messages 70  Disposal 72  Technical Information 73  ION Pump Controller Description 75  Pin Functions 83  About Commands 92  Old IPCU Releases - Compatibility Report Type 6 96  Floating Point Notation 98  Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B) 7/106...
  • Page 8 Contents 8/106 Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B)

  • Page 9: Procedura Per L'installazione

    Ion Pumps Control Unit (No Battery) User Manual Procedura per l’installazione Informazioni Generali Descrizione del controller 11 Immagazzinamento Preparazione per l’installazione 12 Installazione Comandi e indicatori del pannello anteriore dell’unità controller per pompe ioniche Pannello posteriore dell’unità controller per pompe ioniche Procedure di Uso 18 Modalità...

  • Page 10: Informazioni Generali

    Procedura per l’installazione Informazioni Generali Informazioni Generali Questa apparecchiatura è destinata ad uso professionale. L’utilizzatore deve leggere attentamente il presente Manuale di Istruzioni e ogni altra informazione aggiuntiva fornita dalla Agilent prima di utilizzare l’apparecchiatura. La Agilent si ritiene sollevata da eventuali responsabilità...

  • Page 11: Descrizione Del Controller

    Procedura per l’installazione Descrizione del controller Descrizione del controller Controller della Agilent per pompe ioniche, in grado di azionare fino a 3 pompe simultaneamente e in modo indipendente. Questo controller è progettato per fornire l’alta tensione alle pompe ioniche mediante collegamento all’alimentazione principale (tensione in uscita max.

  • Page 12: Preparazione Per L'installazione

    Procedura per l’installazione Preparazione per l’installazione Preparazione per l’installazione Il controller è fornito all’interno di un apposito imballo protettivo. In caso di segni evidenti di danneggiamento accorsi durante il trasporto, contattare l’ufficio vendite locale. In fase di disimballaggio del controller, fare attenzione a non lasciarlo cadere ed evitare di sottoporlo ad urti o vibrazioni.

  • Page 13: Installazione

    Procedura per l’installazione Installazione Installazione AVVERTENZA! Il controller è dotato di un cavo di alimentazione a 3 fili senza spina. Applicare una spina appropriata a seconda del paese di utilizzo del controller. Si noti che il filo giallo/verde del cavo è il collegamento a massa del controller.

  • Page 14: Uso

    Procedura per l’installazione AVVERTENZA! Il controller deve essere installato in modo tale da poter interrompere senza difficoltà la tensione (scollegamento della spina o interruzione mediante interruttore della linea generale del rack). Durante il funzionamento dell’apparecchiatura è necessario che siano rispettate le seguenti condizioni ambientali: temperatura: da +5 °C a +40 °C umidità...

  • Page 15: Comandi E Indicatori Del Pannello Anteriore Dell'unità Controller Per Pompe Ioniche

    Procedura per l’installazione Comandi e indicatori del pannello anteriore dell’unità controller per pompe ioniche La figura e la tabella seguenti riportano i comandi e gli indicatori del pannello anteriore del controller, con le relative descrizioni e funzionalità. La funzionalità e il significato di alcuni comandi e indicatori cambia a seconda NOTA della posizione dell’interruttore HV ON OFF.
  • Page 16 Procedura per l’installazione Tab. 1 RIF. SEGNALE DESCRIZIONE MAINS ON LED Quando è On, significa che l’unità è collegata alla linea di alimentazione e che l’interruttore Line sul pannello posteriore è in posizione ON (I). HV1 ON/OFF SWITCH Quando è in posizione ON (I), abilita l’alimentazione ad alta tensione per la pompa 1 se il controller è...

  • Page 17: Pannello Posteriore Dell'unità Controller Per Pompe Ioniche

    Procedura per l’installazione Pannello posteriore dell’unità controller per pompe ioniche La seguente figura illustra i comandi e gli indicatori del pannello posteriore del controller. Per le informazioni dettagliate circa i collegamenti, fare riferimento all’Appendice “Technical Information”. Figura 3 Pannello posteriore dell’unità controller per pompe ioniche Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B) 17/106...

  • Page 18: Procedure Di Uso

    Procedura per l’installazione Procedure di Uso Tab. 2 RIF. SEGNALE DESCRIZIONE HV1 Connector Connettore HV per cavo di collegamento alla pompa ionica 1 HV2 Connector Connettore HV per cavo di collegamento alla pompa ionica 2 HV3 Connector Connettore HV per cavo di collegamento alla pompa ionica 3 LINE INPUT Modulo contenente la spina del cavo di ingresso della linea e l’interruttore LINE...

  • Page 19: Modalità Operative

    Procedura per l’installazione Modalità Operative Modalità Operative Collegamento alla linea di alimentazione Modalità operativa I/O LOCALE-REMOTA I 3 interruttori alta tensione presenti sul pannello anteriore e i 3 ingressi On/Off NOTA HV sul connettore DB25 “Remote” sul pannello posteriore sono in serie. L’HV alle 3 pompe può...

  • Page 20: Funzionamento Seriale

    Procedura per l’installazione Modalità Operative Se il collegamento è realizzato con un cavo alta tensione unipolare senza NOTA interlock di sicurezza, accertarsi che il ponticello fornito sul pannello posteriore dell’unità sia inserito nella spina “HV Cable Interlock”. Funzionamento SERIALE La modalità SERIALE è impostata per utilizzare il prodotto collegando il NOTA controller ad un PC esterno che utilizza il programma “HYPER TERMINAL”...

  • Page 21: Messaggi Di Errore

    Procedura per l’installazione Messaggi di errore Modalità operativa START/PROTECT Il controller può funzionare nelle due seguenti modalità: Start e Protect. In modalità Start, i 3 canali in uscita possono fornire tutta la potenza in uscita a prescindere dalle condizioni della pompa, fino allo stato di cortocircuito.
  • Page 22 Procedura per l’installazione Messaggi di errore In modalità I/O remota-locale, la condizione di anomalia è resettata posizionando su Off (0) l’interruttore del canale corrispondente presente sul pannello anteriore. In modalità seriale, la condizione di anomalia è resettata inviando il comando “F0n” attraverso il computer. Nel caso in cui si verifichi una delle seguenti condizioni mentre l’alta tensione NOTA del canale è...

  • Page 23: Sul Connettore "Remote" Nel Pannello Posteriore

    Procedura per l’installazione Messaggi di errore Sul connettore “Remote” nel pannello posteriore Uscita “Fault”: contatto N.C. (stato inattivo) = Il contatto è aperto in condizione “ Fault” (relè Off) Il contatto è chiuso durante il normale funzionamento (relè On) Uscita “HV 1,2,3”: contatto N.O. (stato inattivo) = Il contatto è...

  • Page 24: Smaltimento

    Procedura per l’installazione Smaltimento Smaltimento Significato del logo "WEEE" presente sulle etichette. Il simbolo qui sotto riportato applicato in ottemperanza alla direttiva CE denominata "WEEE". Questo simbolo (valido solo per i paesi della Comunità Europea) indica che il prodotto sul quale è applicato, NON deve essere smaltito insieme ai comuni rifiuti domestici o industriali, ma deve essere avviato ad un sistema di raccolta differenziata.

  • Page 25: Anleitung Zur Installation

    Anleitung zur Installation Smaltimento Anleitung zur Installation Allgemeines Beschreibung des Kontrollers Lagerung Installationsvorbereitung Installation Benutzung Steuerungen und Anzeigen auf dem vorderen Bedienfeld des Ionenpumpen-Kontrollers Rückseite des Ionenpumpen-Kontrollers 33 Gebrauch Betriebsarten Netzversorgung Betrieb LOCAL-REMOTE I/O 35 SERIELLER Betrieb START/PROTECT Betrieb Fehlermeldungen 37 Auf dem vorderen Bedienfeld Auf dem “Remote”...

  • Page 26: Allgemeines

    Anleitung zur Installation Allgemeines Allgemeines Dieser Apparat ist für Fachbetriebe bestimmt. Vor Gebrauch sollte der Benutzer dieses Handbuch sowie alle weiteren von Agilent mitgelieferten Zusatzdokumente genau lesen. Bei - auch nur teilweisem - Nichtbeachtung der enthaltenen Hinweise, unsach- gemäßem Gebrauch durch ungeschultes Personal, nicht autorisierten Eingriffen und Missachtung der einheimischen, hier zur Geltung kommenden Bestimmungen übernimmt die Fa Agilent keinerlei Haftung.

  • Page 27: Beschreibung Des Kontrollers

    Anleitung zur Installation Beschreibung des Kontrollers Beschreibung des Kontrollers Der Agilent Kontroller dient zur Steuerung von Ionenpumpen. Er kann gleichzeitig bis zu 3 Ionenpumpen unabhängig voneinander bedienen und ist so entworfen, dass er die Ionenpumpen mit HV versorgt, wenn er an das Netz angeschlossen ist (max.

  • Page 28: Installationsvorbereitung

    Anleitung zur Installation Installationsvorbereitung Installationsvorbereitung Der Kontroller wird in einer speziellen Schutzverpackung geliefert. Wenn diese Spuren von Beschädigung zeigt, die bei der Spedition erfolgt sein kann, kontaktieren Sie Ihr lokales Verkaufsbüro. Beim Auspacken des Kontrollers darauf achten, dass er nicht herunterfällt oder Stößen oder Vibrationen ausgesetzt wird.

  • Page 29: Installation

    Anleitung zur Installation Installation Installation WARNUNG! Der Kontroller hat ein dreiadriges Netzkabel ohne Stecker. Bringen Sie den richtigen Stecker für das Land an, in dem der Kontroller eingesetzt wird. Der gelbgrüne Leiter des Kabels ist der Erdungsanschluss des Kontrollers. Benutzen Sie diesen Leiter und den angeschlossenen Stecker zusammen mit einer richtig geerdeten Steckdose, um elektrische Schläge zu verhindern.

  • Page 30: Benutzung

    Anleitung zur Installation Benutzung WARNUNG! Der Kontroller muss so installiert werden, dass er leicht von der Netzspannung getrennt werden kann (Abziehen des Netzsteckers oder Hauptschalter des Gestells). Beim Betrieb müssen die folgenden Umgebungsbedingungen eingehalten werden: Temperatur: +5 °C bis +40 °C rel.

  • Page 31: Steuerungen Und Anzeigen Auf Dem Vorderen Bedienfeld Des Ionenpumpen-Kontrollers

    Anleitung zur Installation Benutzung Steuerungen und Anzeigen auf dem vorderen Bedienfeld des Ionenpumpen-Kontrollers Die Abbildung und die Tabelle auf der folgenden Seite zeigen die Steuerungen und Anzeigen auf dem vorderen Bedienfeld des Ionenpumpen-Kontrollers mit Beschreibung und Funktion. Bei einige Steuerungen und Anzeigen hängt die Funktion von der Stellung des NOTA Schalters HV ON OFF ab.
  • Page 32 Anleitung zur Installation Benutzung Tab. 1 RIF. SIGNAL BESCHREIBUNG Wenn an, ist die Einheit ans Netz angeschlossen und der Netzschalter auf der MAINS ON LED Rückseite steht auf ON (I). Wenn auf ON (I), wird die HV für die Pumpe 1 geschaltet, sofern der Kontroller HV1 ON/OFF SWITCH auf LOCAL/REMOTE I/O Betrieb gesetzt ist und die externen wie die HV Kabel- Verriegelungen geschlossen sind.

  • Page 33: Rückseite Des Ionenpumpen-Kontrollers

    Anleitung zur Installation Benutzung Rückseite des Ionenpumpen-Kontrollers Die folgende Abbildung zeigt die Steuerungen und Stecker auf der Rückseite des Ionenpumpen-Kontrollers. Einzelheiten über die Anschlüsse finden sich im Anhang " Technical Information”. Abbildung 3 Rückseite des Ionenpumpen-Kontrollers Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B) 33/106...

  • Page 34: Gebrauch

    Anleitung zur Installation Gebrauch Tab. 2 RIF. SIGNAL BESCHREIBUNG HV1 Connector HV-Stecker für das Kabel zur Ionenpumpe 1 HV2 Connector HV-Stecker für das Kabel zur Ionenpumpe 2 HV3 Connector HV-Stecker für das Kabel zur Ionenpumpe 3 LINE INPUT Modul mit dem Stecker für das Netzkabel und dem Netzschalter FUSE Halter für die Schmelzsicherungen (2 Sicherungen) SERIAL Connector...

  • Page 35: Betriebsarten

    Anleitung zur Installation Betriebsarten Betriebsarten Netzversorgung Betrieb LOCAL-REMOTE I/O Die 3 HV Schalter auf dem vorderen Bedienfeld und die 3 HV On/Off Eingänge HINWEIS auf dem Stecker DB25 “Remote” auf der Rückseite sind in Serie. Die HV zu den 3 Pumpen kann AN und AUS geschaltet werden: mit den 3 HV-Schaltern (HV1, HV2 oder HV3) auf der Vorderkonsole (dann müssen das betreffende HV AN/AUS Signal auf dem Fernstecker DB25 sowie die betreffende HV-Verriegelung...

  • Page 36: Serieller Betrieb

    Anleitung zur Installation Betriebsarten Erfolgt der Anschluss mit einem einadrigen HV-Kabel ohne HINWEIS Sicherheitsverriegelung, sicherstellen, dass auf der Rückseite der Einheit die vorgesehene Brücke in die Buchse für HV-Kabelverriegelung eingesteckt ist. SERIELLER Betrieb Die SERIELLE Verbindung wird eingestellt, um bei Anschluss des Controllers an HINWEIS einen externen PC zu arbeiten, der “HYPER TERMINAL“...

  • Page 37: Fehlermeldungen

    Anleitung zur Installation Fehlermeldungen START/PROTECT Betrieb Der Kontroller kann in zwei Betriebsarten arbeiten: Start und Protect. In Start können die 3 Ausgangskanäle die ganze Ausgangsleistung unabhängig von dem Pumpenzustand bis zur Kurzschlussleistung liefern. Diese Betriebsart muss zum Starten der Pumpen bei hohem Druck benutzt werden.
  • Page 38 Anleitung zur Installation Fehlermeldungen In der Betriebsart Local-Remote I/O werden Fehlerbedingungen durch Schalten des betreffenden Kanals auf dem vorderen Bedienfeld in OFF (0) zurückgesetzt. In der seriellen Betriebsart werden Fehlerbedingungen durch Übersenden des Befehls “F0n” vom PC zurückgesetzt. Wenn eine der folgenden Bedingungen auftritt, während die Hochspannung des HINWEIS Kanals AN ist, wird der Ausgang dieses Kanals sofort auf AUS gesetzt.

  • Page 39: Auf Dem "Remote" Stecker Auf Der Rückseite

    Anleitung zur Installation Fehlermeldungen Auf dem “Remote” Stecker auf der Rückseite “Fehler” Ausgabe: Öffnerkontakt (Leerlauf) = Der Kontakt ist bei Fehlerbedingung offen (Relais aus) Der Kontakt ist bei Fehlerbedingung geschlossen (Relais an) “HV 1,2,3” Ausgabe: Schließerkontakt (Leerlauf) = Der Kontakt ist offen, wenn HV in AUS (Relais aus) Der Kontakt ist geschlossen, wenn HV in AN (Relais an) “HV 1,2,3”...

  • Page 40: Entsorgung

    Anleitung zur Installation Entsorgung Entsorgung Bedeutung des "WEEE" Logos auf den Etiketten. Das folgende Symbol ist in Übereinstimmung mit der EU-Richtlinie WEEE (Waste Electrical and Electronic Equipment) angebracht. Dieses Symbol (nur in den EU-Ländern gültig) zeigt an, dass das betreffende Produkt nicht zusammen mit Haushaltsmüll entsorgt werden darf sondern einem speziellen Sammelsystem zugeführt werden muss.
  • Page 41 Ion Pumps Control Unit (No Battery) User Manual Procédure pour l’installation Indications Generales Description du Controleur 43 Emmagasinage Préparation pour l'installation 44 Installation Utilisation Commandes et Indicateurs du Panneau Antérieur de l’unité Contrôleur pour Pompes Ioniques Panneau postérieur de l’unité contrôleur pour pompes ioniques Procedures d’utilisation Modalite Operationnelle...

  • Page 42: Procédure Pour L'installation Indications Generales

    Procédure pour l’installation Indications Generales Indications Generales Cet appareillage a été conçu en vue d’une utilisation professionnelle. Il est conseillé à l’utilisateur de lire attentivement cette notice d’instructions ainsi que toute autre indication supplémentaire fournie par Agilent, avant l’utilisation de l’appareillage. Agilent décline toute responsabilité...

  • Page 43: Description Du Controleur

    Procédure pour l’installation Description du Controleur Description du Controleur Contrôleur de Agilent pour pompes ioniques en mesure d’actionner jusqu’à 3 pompes simultanément et de manière autonome. Ce contrôleur est conçu pour fournir la haute tension aux pompes ioniques par l’intermédiaire d’une connexion à l’alimentation principale (tension en sortie max.

  • Page 44: Préparation Pour L'installation

    Procédure pour l’installation Préparation pour l'installation Préparation pour l'installation Le contrôleur est fourni dans un emballage de protection. En cas de signes évidents d’endommagements qui ont eu lieu durant le transport, contacter le bureau de vente local. Pendant la phase d’ouverture de l’emballage du contrôleur, veiller à...

  • Page 45: Installation

    Procédure pour l’installation Installation Installation AVERTISSEMENT! Le contrôleur est pourvu d’un câble d’alimentation à 3 fils sans fiche. Appliquer une fiche appropriée selon le pays d’utilisation du contrôleur. A remarquer que le fil jaune/vert du câble est la connexion à masse du contrôleur.
  • Page 46 Procédure pour l’installation Installation AVERTISSEMENT! Le contrôleur doit être installé de manière à pouvoir interrompre sans problèmes la tension (débranchement de la fiche ou interruption au moyen de l’interrupteur de la ligne générale du rack). Le fonctionnement de la pompe n'est optimisé que si celle-ci est utilisée avec l'une des unités de contrôle Agilent spécifiques (Dual, MidiVac ou MiniVac).

  • Page 47: Utilisation

    Procédure pour l’installation Utilisation Utilisation Dans ce paragraphe sont reportées les principales procédures opérationnelles. Pour de plus amples détails et pour les informations inhérentes aux connexions facultatives, se référer au paragraphe "UTILISATION" de l’Annexe "Technical Information". Avant d’actionner le contrôleur, effectuer toutes les connexions électriques ainsi que vers la pompe et lire le Manuel d’Instructions de la pompe branchée.

  • Page 48: Commandes Et Indicateurs Du Panneau Antérieur De L'unité Contrôleur Pour Pompes Ioniques

    Procédure pour l’installation Utilisation Commandes et Indicateurs du Panneau Antérieur de l’unité Contrôleur pour Pompes Ioniques La figure et le tableau suivants indiquent les commandes et les indicateurs du panneau antérieur du contrôleur avec les relatives descriptions et fonctions. La fonctionnalité et la signification de certaines commandes et indicateurs NOTA changent selon la position de l’interrupteur HV ON OFF.
  • Page 49 Procédure pour l’installation Utilisation Tab. 1 RIF. SIGNAL DESCRIPTION MAINS ON LED Lorsqu’il y a une condition de On, cela veut dire que l’unité est branchée à la ligne de l’alimentation et que l’interrupteur Line sur le panneau postérieur est en position ON (I). HV1 ON/OFF SWITCH Lorsqu’il est en position ON (I), il habilite l’alimentation à...

  • Page 50: Panneau Postérieur De L'unité Contrôleur Pour Pompes Ioniques

    Procédure pour l’installation Utilisation Panneau postérieur de l’unité contrôleur pour pompes ioniques La figure suivante montre les commandes et les indicateurs du panneau postérieur du contrôleur. Pour de plus amples renseignements détaillés à propos des connexions, se référer à l’annexe “Technical Information”. Figure 3 Panneau postérieur de l’unité...

  • Page 51: Procedures D'utilisation

    Procédure pour l’installation Procedures d’utilisation Tab. 2 RIF. SIGNAL DESCRIPTION HV1 Connector Connecteur HV pour câble de connexion à la pompe 1 HV2 Connector Connecteur HV pour câble de connexion à la pompe inique 2 HV3 Connector Connecteur HV pour câble de connexion à la pompe inique 3 LINE INPUT Module contenant la fiche du câble d’entrée de la ligne et l’interrupteur LINE FUSE...

  • Page 52: Modalite Operationnelle

    Procédure pour l’installation Modalite Operationnelle Modalite Operationnelle Connexion à la ligne d’alimentation Modalité opérationnelle I/O LOCALE-A DISTANCE Les 3 interrupteurs haute tension présents sur le panneau antérieur et les 3 NOTE entrées On/Off HV sur le connecteur DB25 “Remote” sur le panneau postérieur sont en série.

  • Page 53: Fonctionnement Seriel

    Procédure pour l’installation Modalite Operationnelle Fonctionnement SERIEL La modalité SERIELLE est saisie pour utiliser le produit en tranchant le NOTE contrôleur à un PC externe qui utilise le programme“HYPER TERMINAL” ou un programme équivalent (par exemple un programme proprietary user) sous Windows ou autre système opérationnel.

  • Page 54: Messages D'erreur

    Procédure pour l’installation Messages d’erreur En modalité Protect, le contrôleur limite le courant en sortie et désactive la haute tension lorsque le courant dépasse la valeur de seuil (8 mA) pour plus de 2 secondes. Messages d’erreur Sur le panneau antérieur Durant le fonctionnement du contrôleur, on a trouvé...

  • Page 55: Sur Le Connecteur "Remote" Dans Le Panneau Postérieur

    Procédure pour l’installation Messages d’erreur Au cas où une des conditions suivantes s’avèrent tandis que la haute tension NOTE du canal est active, la sortie du canal est programmée immédiatement sur OFF, le voyant LED sur le panneau antérieur inique la condition d’anomalie correspondante et l’information inhérente à...

  • Page 56: Mise Au Rebut

    Procédure pour l’installation Mise au rebut Point de réglage du courant de sortie “HV 1,2,3”: contact N.O. (condition inactive) = Le contact est ouvert avec une valeur du courant de sortie inférieure au point de réglage du courant (relais Off) Le contact est fermé...

  • Page 57: Installation Procedure

    Ion Pumps Control Unit (No Battery) User Manual Installation Procedure General Information Controller Description Storage Preparation for Installation 60 Installation Ion Pumps C.U. Front Panel Controls and Indicators63 Ion Pumps C.U. Rear Panel 65 Usage 67 Operating Modes Power Line Supply 68 LOCAL-REMOTE I/O Operation 68 SERIAL Operation 69 START/PROTECT Operation 69...

  • Page 58: General Information

    Installation Procedure General Information General Information This equipment is destined for use by professionals. The user should read this instruction manual and any other additional information supplied by Agilent before operating the equipment. Agilent will not be held responsible for any events occurring due to non-compliance, even partial, with these instructions, improper use by untrained persons, non-authorised interference with the equipment or any action contrary to that provided for by specific national standards.

  • Page 59: Controller Description

    Installation Procedure Controller Description Controller Description Agilent’s controller is an ion pumps controller. It can drive up to 3 Ion Pumps simultaneously and independently. The controller is designed to give the HV to the Ion Pumps when it is connected to the Mains supply (Max. Output Voltage = 5000 Vdc). (See the paragraph “Technical Informations”...

  • Page 60: Preparation For Installation

    Installation Procedure Preparation for Installation Preparation for Installation The controller is supplied in a special protective packing. If this shows signs of damage which may have occurred during transport, contact your local sales office. When unpacking the controller, be sure not to drop it and avoid any kind of sudden impact or shock vibration to it.

  • Page 61: Installation

    Installation Procedure Installation Installation WARNING! The controller is equipped with a 3-wire power cord without plug. Install the proper plug foreseen by the country where the controller will be used. Note that the Yellow/Green wire of the cable is the Ground connection of the controller.

  • Page 62: Use

    Installation Procedure WARNING! The controller must be installed in a way that allows an easy interruption of the line voltage (disconnection of the line plug or interruption on the rack general line switch). During operation, the following environmental conditions must be respected: temperature: from +5 °C to +40 °C relative humidity: 0 –...

  • Page 63: Ion Pumps C.u. Front Panel Controls And Indicators63

    Installation Procedure Ion Pumps C.U. Front Panel Controls and Indicators The figure and the table of the following page illustrate the Controller front panel controls and indicators with relevant description and function. Some controls and indicators change their function and meaning according to NOTE the position of HV ON OFF switch.
  • Page 64 Installation Procedure Tab. 1 RIF. SIGNAL DESCRIPTION MAINS ON LED When On it means that the unit is connected to the Power Line and the Line Switch on the rear panel is in ON (I) position. HV1 ON/OFF SWITCH When in ON (I) position, it switches On the HV to the pump 1 if the controller is set for LOCAL/REMOTE I/O operation and the external and HV Cable interlocks are closed HV1 LED...

  • Page 65: Ion Pumps C.u. Rear Panel

    Installation Procedure Ion Pumps C.U. Rear Panel The controller rear panel controls and connections are shown in the following figure. For detailed information about the connections see the appendix “Technical Information”. Figure 3 Ion Pumps C.U. Rear Panel Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B) 65/106...
  • Page 66 Installation Procedure Tab. 2 RIF. SIGNAL DESCRIPTION HV1 Connector HV Connector for Cable to Ion Pump 1 HV2 Connector HV Connector for Cable to Ion Pump 2 HV3 Connector HV Connector for Cable to Ion Pump 3 LINE INPUT Module containing the Line Input cable plug and the Line Switch FUSE Protection Fuse holder (2 fuses) SERIAL Connector...

  • Page 67: Usage

    Installation Procedure Usage Usage This paragraph gives a general information on the use of the controller. For details refer to the “Technical Information” paragraph. When the controller is plugged to the Power Line and the Line Switch on the rear panel is ON (I), it is able to operate with its full set of features: 3 independent HV channels + 5000 Vdc maximum output Voltage...

  • Page 68: Operating Modes

    Installation Procedure Operating Modes Operating Modes Power Line Supply LOCAL-REMOTE I/O Operation The 3 HV switches on the front panel and the 3 HV On/Off inputs on the DB25 NOTE “Remote” connector on the rear panel are in series. The HV to the 3 pumps can be switched ON or OFF by the 3 HV (HV1, HV2 or HV3) switches on the front panel (in this case the respective HV ON-OFF signal on DB25 remote connector must be closed and the respective HV Cable Interlock must be closed) or can be switched ON...

  • Page 69: Serial Operation

    Installation Procedure Operating Modes SERIAL Operation The SERIAL is set in order to operate by connecting the controller to an external NOTE PC that uses the “HYPER TERMINAL“ or equivalent program (for example a proprietary user program) running under Windows Operating System or other. To operate in serial mode, connect the serial port to the controller “Serial”...

  • Page 70: Error Messages

    Installation Procedure Error Messages Error Messages On Front Panel During the controller operation, if an error condition is detected, the HV LEDs on the front panel will give the indication: Led HV 1,2 flashing: error condition: 1 flash every 4 seconds = Interlock HV cable 2 flashes every 4 seconds = remote Interlock 3 flashes every 4 seconds = HV Over voltage (This Fault doesn’...

  • Page 71: On "Remote" Connector On Rear Panel

    Installation Procedure Error Messages Protect intervention (I>8mA for more than 2 seconds for 40 W output – 16 mA for 80 W output) (8 flashes of the LED) HV Cable Interlock open (1 flash of the LED) Remote Interlock open (2 flashes of the LED) Internal error on the HV generation (4 flashes of the LED) Output short circuit (5 flashes of the LED) Change of the Local-Remote I/O switch status while HV was On...

  • Page 72: Disposal

    Installation Procedure Disposal Disposal Meaning of the "WEEE" logo found in labels. The following symbol is applied in accordance with the EC WEEE (Waste Electrical and Electronic Equipment) Directive. This symbol (valid only in countries of the European Community) indicates that the product it applies to must NOT be disposed of together with ordinary domestic or industrial waste but must be sent to a differentiated waste collection system.
  • Page 73 Ion Pumps Control Unit (No Battery) User Manual Technical Information ION Pump Controller Description Controller Specifications 75 Remote I/O Connector Pinout 78 Input Commands Connection 79 Output Signals Connection Analog Recorder Outputs (Proportional Analog Recorder to Pump Current) 81 SERIAL Operation 82 Controller RS232 Standard Serial Pinouts (DB9 Female Connector) 82 Pin Functions...
  • Page 74 Technical Information Set-Point Current Threshold reading 87 Report Setting 87 Report Type Read Request Report (in NON Continuous Report Mode) 88 Enable, Disable Value in Floating Point Report Mode About Report 89 Enable – Disable Remark Lines Continuous and NON Continuous Report Mode 90 Enable - Disable Input ECO Characters 91 About Commands Report TYPE 0…6...

  • Page 75: Technical Information Ion Pump Controller Description

    Technical Information ION Pump Controller Description ION Pump Controller Description The Ion Pump controller is composed of a number of printed circuit boards: 1 board: (Power Supply), it converts the Line Voltage to the 24 Vdc that is used to generate the HV 1 board: (Auxiliary Power Supply), it generates the + and –...
  • Page 76 Technical Information ION Pump Controller Description Output for the pumps: With Line Supply: Output Voltage (each channel) Default value = +5000 V +1/-5 %, settable from Output Current (each channel) +3000 – +5000Vdc +1, -5 %, step +/- 50 V by serial line command Maximum Output Power (each channel)
  • Page 77 Technical Information ION Pump Controller Description   Ion Pump C.U. Output Curve (each channel) 6000 5000 4000 3000 2000 1000 Pump Current (mA) Figure 4 Output Voltage Curve for Line Supply HV OUTPUT BATTERY LINE INPUT FUSE MAINS ON VACUUM TECHNOLOGIES CABLE INTERLOCK SERIAL ON I /...

  • Page 78: Remote I/O Connector Pinout

    Technical Information ION Pump Controller Description Remote I/O Connector Pinout Figure 6 Remote I/O Pinout Rear Panel D-Shell Female 25P The controller is shipped with the mating (male) connector with the 3 jumpers on the HV 1,2,3 On/Off (External Interlock) inputs in order to allow to switch the HV On and Off by the unit front panel.

  • Page 79: Input Commands Connection

    Technical Information ION Pump Controller Description Figure 7 Remote I/O Jumpers Conn. D-Shell Male 25 Pin Input Commands Connection Input signals:Optically Insulated Insulated 24 Vdc (+10 %, -50 %) supply for input signal: Internally generated. 24 Vdc insulated External Contact Figure 8 Remote Interlock (Remote HV On/off) Ch1 HV input: Pin 8, Pin 21...

  • Page 80: Output Signals Connection

    Technical Information ION Pump Controller Description Output Signals Connection Relay outputs: Single contact Output relays rating: 2 A @ 125 Vac. Minimum load: 10 mW (100 mV @ 1 mA). Bounucing Time: NO=1msec; NC=3msec. Set-Point Relay Outputs: Ch1 Set-Point: Pin 1 (NO), Pin 14 (COM) Ch2 Set-Point: Pin 2 (NO), Pin 15 (COM) CH3 Set-Point: Pin 3 (NO), Pin 16 (COM) Relay contact “Closed”...

  • Page 81: Analog Recorder Outputs (Proportional Analog Recorder To Pump Current)

    Technical Information ION Pump Controller Description Analog Recorder Outputs (Proportional Analog Recorder to Pump Current) Analog Recorder Output: Ch1: Pin 11 (+), Pin 24 (0 V) Ch2: Pin 12 (+), Pin 24 (0 V) Ch3: Pin 13 (+), Pin 24 (0 V) Note: At Pin 25 a reference voltage corresponding to the 3 recorder outputs full scale value (5 V +/- 5 %) is given.

  • Page 82: Serial Operation

    Technical Information ION Pump Controller Description SERIAL Operation The Controller works on RS232 DCE Mode (like a Modem with DB9 FEMALE connector). The Host/Terminal/Personal Computer works always on RS232 DTE Mode (like a PC with DB9 MALE connector) The Cable Interconnections are 1 to 1 signals (DB9 Male/Female Standard CABLE).

  • Page 83: Pin Functions

    Technical Information Pin Functions Tab. 4 D Type 9 Pin FEMALE Connector D-Type-9 Pin No. Abbreviation Full Name Pin 3 Transmit Data Pin 2 Receive Data Pin 7 Request To Send Pin 8 Clear To Send Pin 6 Data Set Ready Pin 5 Signal Ground Pin 1...

  • Page 84: Ion Pump Control Unit - Operator / Host Serial Communication

    Technical Information Pin Functions RTS / CTS are jumpered together on the Controller connector and DTR is jumpered to DSR / DCD on IPCU connector. The DTE sees the IPCU like a Standard MODEM. Ion Pump Control Unit - Operator / Host Serial Communication The Controller Report and Operator/Host Command are ASCII strings CR (0D hexadecimal, 13 decimal) terminated.

  • Page 85: Controller Report Mode

    Technical Information Pin Functions Controller Report Mode "HVn status fault start/protect current voltage" [HV] 2 characters 'HV' [1, or 2] 1 character [0x20] 1 character SPACE status [OFF__, FAULT, ON___] 5 characters [0x20] 1 character SPACE fault [00, .., FF] 2 characters [0x20] 1 character SPACE...

  • Page 86: Hv Channel On/Off Setting

    Technical Information Pin Functions Controller Commands Mode HV Channel On/Off Setting "A0ns”[Enter] where : A0 = HV Channel Serial Command for Status Set N = HV Channel Number 1 or 2 = 0 for OFF, 1 for ON HV Channel Start/Protect Mode Setting "C0ns”[Enter] where : HV Channel Serial Command for Start/Protect Setting...

  • Page 87: Set-Point Current Threshold Setting (Minimum Access Level Required: "0")

    Technical Information Pin Functions Set-Point Current Threshold Setting (Minimum Access Level Required: “0”) “WR[space]Y[space] xxxxxx”[Enter] WR = Write 14 for channel 1 15 for channel 2 16 for channel 3 xxxxxx = Current Set-Point value in nA (from 0 to 100000000) Set-Point Current Threshold reading “RD[space]Y”[Enter] RD = Read...

  • Page 88: Report Type Read

    Technical Information Pin Functions mode[0, …, 4] where: ‘0’ only Remarks, no channel reports ‘1’ reports only channel 1 ‘2’ reports only channel 2 ‘3’ reports only channel 3 ’4’ reports all channels Report Type Read “RT”[Enter] Request Report (in NON Continuous Report Mode) “RR”...

  • Page 89: Enable, Disable Value In Floating Point Report Mode

    Technical Information Pin Functions Enable, Disable Value in Floating Point Report Mode (Access Level 1 Required). “WR[space]Y[space]X”[Enter] WR = Write 31 (parameter number) 0 for Standard Report Mode (default value) 1 for Floating Point Report Mode About Report The continuous report sent by the IPCU protocol communication is structured as follow: At each main power on start up six remarking lines are sent.

  • Page 90: Enable - Disable Remark Lines

    Technical Information Pin Functions These six lines are sent also if the EEPROM’s parameter n. 30 are set to “0” = Disable Remark Lines. After these six lines, the normal report sequence starts, accordingly to the report type chosen notifying the user about the values of voltage, current and power, faults and events status for each channel.

  • Page 91: Enable - Disable Input Eco Characters

    Technical Information Pin Functions After the “enter”, the continuous report mode stops immediately. According to the report type and mode, the unit sends one instantaneous report each time a “Request Report” (RR) command is received. To return in the continuous report mode it is necessary to send a new “Report Setting”...

  • Page 92: About Commands

    Technical Information About Commands About Commands When the unit receives a command, it transmits the plus symbol: “+” to confirm the command is executable. If the command is not correct, the unit transmits the minus symbol: “-“. When the parameter of a command is out of range, the unit sends: “- [PARAMETER_ERROR]”.

  • Page 93: User Operator Report Type 0 And User Technician Repo

    Technical Information About Commands Technical Reports Type 1, 3 and 5 report the ‘instantaneous measured values’ for the HV Channel Current, Voltage and Power, both in normal or scientific notation and the ‘continuous average measured values’ in the hexadecimal format. User Operator Report Type 0 and User Technician Report Type 1 Report Format: “HVc sssss iiiiixA vvvvV F=ffff E=eeee <CR>”...

  • Page 94: User Operator Report Type 2 And User Technician Repo

    Technical Information About Commands User Operator Report Type 2 and User Technician Report Type 3 Report Format: “HVc sssss iiiiixA vvvvV F=ffff E=eeee pppppmW i=yyyy v=zzz c=www <CR>” Report Fields: HV Channel c= 1 or 2 sssss HV Channel Status [‘OFF__’, ‘ON___’, ‘FAULT’] iiiii HV Channel Current in nA or uA vvvv...

  • Page 95: User Operator Report Type 4 And User Technician Repo

    Technical Information About Commands User Operator Report Type 4 and User Technician Report Type 5 Report Format: “HVc sssss iiiiixA vvvvV F=ffff E=eeee pppppmW i=yyyy v=zzz c=www in=hhhh dac=dd <CR>” Report Fields: HV Channel c= 1 or 2 sssss HV Channel Status [‘OFF__’, ‘ON___’, ‘FAULT’] iiiii HV Channel Current in nA or uA vvvv...

  • Page 96: Old Ipcu Releases - Compatibility Report Type 6

    Technical Information Old IPCU Releases - Compatibility Report Type 6 Example: RT 4[Enter] HV2 OFF 0V F=0000 E=0000 0mW i=0001 v=000 c=D80 d=7407 r=00 HV1 OFF 0V F=0000 E=0000 0mW i=0003 v=000 c=D80 d=7407 r=00 HV2 OFF 0V F=0000 E=0000 0mW i=0001 v=000 c=D80 d=7407 r=00 HV1 OFF...
  • Page 97 Technical Information Old IPCU Releases - Compatibility Report Type 6 Example: RT 6 HV2 OFF 00 0 HV1 OFF 00 0 HV2 OFF 00 0 HV1 OFF 00 0 HV2 OFF 00 0 Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B) 97/106...

  • Page 98: Floating Point Notation

    Technical Information Floating Point Notation Floating Point Notation The floating point notation follows the ANSI/IEEE Standard 754- 1985, for Binary Floating Point Arithmetic. Example: AL 1 11111111[Enter] (to grant access level 1) wr 31 1[Enter] (set parameter n. 31 to 1) RT 0 (select report type “0”) HV2 OFF 0.0E-9A 0.0E+0V F=0000 E=0000...

  • Page 99: Cleaning

    Technical Information Floating Point Notation Cleaning For safety reasons, before cleaning the controller: Turn the controller off; disconnect the controller power plug from the electrical outlet disconnect all cables. If the exterior of the controller becomes dirty, use a dry soft cloth. The internal cleaning must be done only by Agilent operator.
  • Page 100 Technical Information Floating Point Notation 100/106 Ion Pumps Control Unit (No Battery) User Manual / 87-900-123-01 (B)
  • Page 106 Request for Return Form Sales and Service Offices United States India Southeast Asia Agilent Technologies Agilent Technologies India Pvt. Ltd. Agilent Technologies Sales Sdn Bhd Vacuum Products Division Vacuum Product Division Vacuum Products Division 121 Hartwell Avenue G01. Prime corporate Park,...