TDK-Lambda 的 PFE1000FA Series Install Manual 规格书

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PFE1000FA Installation Manual TDKLambda General Safety Instructions: A

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ENGLISH

General Safety Instructions:

READ SAFETY INSTRUCTIONS

Servicing:

These products are not customer serviceable TDK-Lambda UK LTD and their authorised agents only are permitted

to carry out repairs.

Critical Components:

These products are not authorised for use as critical components in nuclear control systems, life support systems or

equipment for use in hazardous environments without the express written approval of the Managing Director of TDK-

Lambda EMEA.

Product Usage:

These products are designed for use within a host equipment which restricts access to authorised competent

personnel.

This product is a component power supply and is only to be installed by qualified persons within other equipment and

must be not operated as a stand alone product.

This product is for sale to business to business customers and can be obtained via distribution channels.

It is not intended for sale to end users.

This product is a component power supply and does not fall within the scope of the EMC directive. Compliance with

the EMC directive must be considered in the final installation. Please contact your local TDK-Lambda office.

Environmental:

These products are IPX0, and therefore chemicals/solvents, cleaning agents and other liquids must not be used.

Environment:

This power supply is a switch mode power supply for use in applications within a Pollution Degree 2, overvoltage

category II environment. Material Group IIIb PCB’s are used within it.

Output Loading:

The output power taken from the power supply must not exceed the rating stated on the power supply label, except

as stated in the product limitations in this handbook.

Input Parameters:

This product must be operated within the input parameters stated in the product limitations in this handbook.

End of Life Disposal:

The unit contains components that require special disposal. Make sure that the unit is properly disposed of at the

end of its service life and in accordance with local regulations.

RISK OF ELECTRIC SHOCK

High Voltage Warning:

Dangerous voltages are present within the power supply. The professional installer must protect service personnel

from inadvertent contact with these dangerous voltages in the end equipment.

WARNING: When installed in a Class 1 end equipment, this product must be reliably earthed and professionally

installed.

The (+) or (-) output(s) can be earthed or left floating.

The unit cover(s)/chassis (where applicable) must not be made user accessible.

The mains input connector is not acceptable for use as field wiring terminals.

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For encased products, do not use mounting screws, which penetrate the unit more than; See drawings.

Internal fuses protect the unit and must not be replaced by the user. In case of internal defect, the unit must be

returned to TDK-Lambda UK LTD or one of their authorised agents.

A suitable mechanical, electrical and fire enclosure must be provided by the end use equipment for mechanical,

electric shock and fire hazard protection.

Energy Hazards:

The main output of this product is capable of providing hazardous energy (240VA). Final equipment manufacturers

must provide protection to service personnel against inadvertent contact with the output terminals.

The unit cover/chassis, where applicable, is designed to protect skilled personnel from hazards. They must not be

used as part of the external covers of any equipment where they may be accessible to operators, since under full

load conditions, part or parts of the unit chassis may reach temperatures in excess of those considered safe for

operator access.

PFE1000FA Installation Manual TDKLambda All emeine Sicherheitsvorschriﬂen: A

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DEUTSCH

Allgemeine Sicherheitsvorschriften:

LESEN SIE DIE SICHERHEITSVORSCHRIFTEN

Wartung:

Diese Produkte können nicht durch den Kunden gewartet werden. Nur TDK-Lambda UK LTD. und deren

zugelassene Vertriebshändler sind zur Durchführung von Reparaturen berechtigt.

Kritische Komponenten:

Diese Produkte sind nicht für die Verwendung als kritische Komponenten in nuklearen Kontrollsystemen,

Lebenserhaltungssystemen oder Geräten in gefährlichen Umgebungen geeignet, sofern dies nicht ausdrücklich und

in Schriftform durch den Geschäftsführer von TDK-Lambda EMEA genehmigt wurde.

Produktverwendung:

Diese Produkte sind zur Verwendung innerhalb von Host-Anlagen gedacht, die einen auf das Fachpersonal

beschränkten Zugang haben.

Dieses Produkt ist eine Stromversorgungs-Komponente und sie darf nur von qualifiziertem Personal in andere

Geräte eingebaut werden und sie darf NICHT als eigenständiges ("Stand-Alone") Gerät betrieben werden.

Dieses Produkt ist für den Verkauf an Geschäftskunden entwickelt worden und es kann über Distributionskanäle

bezogen werden.

Es ist NICHT für den Verkauf an Endkunden gedacht und konzipiert.

Dieses Produkt ist eine Stromversorgungsbaugruppe und sie fällt NICHT in den Bereich der EMV Direktive.

Die Konformität mit der EMV Richtlinie muss in der finalen Gesamtinstallation betrachtet werden.

Bitte kontaktieren Sie Ihr regionales TDK-Lambda Vertriebsbüro im Falle von Rückfragen.

Umwelt:

Diese Produkte sind IPX0, aus diesem Grund dürfen keine Chemikalien/Lösungsmittel, Reinigungsmittel und andere

Flüssigkeiten verwendet werden.

Umgebung:

Dieses Netzteil ist ein Schaltnetzteil zur Verwendung in einer Umgebung mit einem Verschmutzungsgrad 2,

Überspannungskategorie II. Materialgruppe IIIb mit darin verwendeten PCBs.

Ausgangsstrom:

Der Ausgangsstrom des Netzteiles darf die Leistung, die auf dem Label des Netzteiles vermerkt ist, nur dann

überschreiten, wenn dies in den Produktgrenzen dieses Handbuches ausgezeichnet ist.

Eingangsparameter:

Dieses Produkt muss innerhalb der Eingangsparameter, die in den Produktgrenzen dieses Handbuches angegeben

sind, betrieben werden.

Entsorgung am Ende der Betriebszeit:

Das Gerät enthält Komponenten die unter Sondermüll fallen. Das Gerät muss am Ende der Betriebszeit

ordnungsgemäß und in Übereinstimmung mit den regionalen Bestimmungen entsorgt werden.

GEFAHR DURCH ELEKTRISCHEN SCHLAG

Hochspannungswarnung:

Innerhalb des Netzteiles gibt es gefährliche Spannungen. Der Elektroinstallateur muss das Wartungspersonal vor

versehentlichem Kontakt mit den gefährlichen Spannungen im Endgerät schützen.

WARNUNG! Falls Sie unser Netzgerät in eine Anwendung mit Schutzklasse 1 eingebaut haben, stellen Sie sicher,

dass es fachgerecht installiert und zuverlässig geerdet ist.

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Die (+) oder (-) Ausgänge können geerdet werden oder unangeschlossen bleiben.

Die Abdeckung des Gerätes/das Gehäuse darf für den Benutzer nicht zugänglich sein.

Der Haupteingangsanschluss ist nicht für die Verwendung als Feldverdrahtungsanschluss geeignet.

Für ummantelt Produkte, verwenden Sie keine Schrauben, die das Gerät mehr als durchdringen; siehe Zeichnung

Eine interne Sicherung schützt das Gerät und darf durch den Benutzer nicht ausgetauscht werden. Im Fall von

internen Defekten muss das Gerät an TDK-Lambda UK LTD oder einen der autorisierten Vertriebshändler

zurückgeschickt werden.

Ein geeignetes mechanisches, elektrisches und brandgeschütztes Gehäuse muss als Schutz vor der Gefahr von

mechanischen Risiken, Stromschlägen und Brandschutz in dem Endgerät vorgesehen werden.

Gefahren durch elektrische Energie:

Von bestimmten Modulen kann je nach Einstellung der Ausgangsspannung gefährliche elektrische Energie

ausgehen (240 VA). Die Endgerätehersteller müssen einen Schutz für Servicepersonal vor unbeabsichtigtem

Kontakt mit den Ausgangsanschlüssen dieser Module vorsehen. Kann aufgrund der Einstellung gefährliche

elektrische Energie auftreten, dürfen die Modulanschlüsse für den Benutzer nicht zugänglich sein.

Die Geräteabdeckung/das Gehäuse ist so entworfen, dass das Fachpersonal vor Gefahren geschützt wird. Sie

dürfen nicht als Teil der externen Abdeckung für Geräte verwendet werden, die für den Betreiber zugänglich sein

müssen, da Teile oder das gesamte Gerätegehäuse unter voller Auslastung übermäßige Temperaturen erreichen

kann, die für den Zugang des Betreibers nicht mehr als sicher betrachtet werden.

PFE1000FA Installation Manual TDKLambda Consi nes énérales de sécuriﬁé: A

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FRANÇAIS

Consignes générales de sécurité:

LIRE LES CONSIGNES DE SECURITE

Entretien:

Ces produits ne peuvent pas être réparés par l’utilisateur. Seuls, TDK-Lambda UK LTD et ses agents agréés sont

autorisés à effectuer des réparations.

Composants critiques:

Ces produits ne doivent pas être utilisés en tant que composants critiques dans des systèmes de commande

nucléaire, dans des systèmes de sauvetage ou dans des équipements utilisés dans des environnements dangereux,

sans l'autorisation écrite expresse du directeur général de TDK-Lambda EMEA.

Utilisation du produit:

Ces produits sont conçus pour être utilisés dans un équipement hôte dont l'accès n'est autorisé qu'aux personnes

compétentes.

Ce produit est une alimentation considérée comme un composant devant être installé par des personnes qualifiées,

dans un autre équipement. Il ne doit pas être utilisé en tant que produit fini.

Ce produit est destiné à la vente entre entreprises et peut être obtenu via des canaux de distribution.

Il n’est pas prévu à la vente pour les particuliers.

Ce produit est une alimentation considérée comme un composant, il ne relève pas du champ d’application de la

directive CEM. Le respect de la directive CEM doit être pris en compte dans l’installation finale. Veuillez contacter

votre bureau TDK-Lambda le plus proche.

Environnement:

Ces produits sont IPX0, et donc on ne doit pas utiliser des produits chimiques/solvants, des produits de nettoyage et

d'autres liquides.

Environnement fonctionnel :

Cette alimentation fonctionne en mode commutation pour utilisation dans des applications fonctionnant dans un

environnement avec Degré de Pollution 2 et catégorie de surtension II. Elle utilise des cartes des circuits imprimés

(PCB) de Groupe IIIb.

Intensité soutirée:

L'intensité soutirée de l'alimentation ne doit pas dépasser l'intensité nominale marquée sur la plaque signalétique,

sauf indications contraires dans les limitations du produit décrit dans ce manuel.

Paramètres d'entrée:

Ce produit doit être utilisé à l'intérieur des paramètres d'entrée indiqués dans les limitations du produit dans ce

manuel.

Elimination en fin de vie:

L'alimentation contient des composants nécessitant des dispositions spéciales pour leur élimination. Vérifiez que

cette alimentation est mise au rebut correctement en fin de vie utile et conformément aux réglementations locales en

vigueur.

RISQUE DE CHOC ELECTRIQUE

Attention-Danger haute tension:

Des tensions dangereuses sont présentes dans l'alimentation. L'installateur doit protéger le personnel d'entretien

contre un contact involontaire avec ces tensions dangereuses dans l'équipement final.

AVERTISSEMENT: Si ce produit est installé dans un équipement final de classe I, il doit être mis à la terre de

manière fiable et installé par un professionnel averti.

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Les sorties (+) ou (-) peuvent être raccordées à la terre ou laissées flotttantes.

Le couvercle/châssis de l'alimentation ne doit pas être accessible à l'utilisateur.Le connecteur d'entrée d'alimentation

principale ne doit pas être utilisé comme borne de raccordement.

N'utilisez pas de vis pénétrant dans le module sur une profondeur supérieure à :Voir dessins.

Un fusible interne protège le module et ne doit pas être remplacé par l'utilisateur. En cas de défaut interne, le module

doit être renvoyé à TDK-Lambda UK LTD ou l'un de ses agents agréés.

Une enceinte appropriée doit être prévue par l'utilisateur final pour assurer la protection contre les chocs

mécaniques, les chocs électriques et l'incendie.

Energies dangereuses :

Certains modules peuvent générer une énergie dangereuse (240 VA) selon le réglage de tension de sortie. Le

fabricant de l'équipement final doit assurer la protection des techniciens d'entretien contre un contact involontaire

avec les bornes de sortie de ces modules. Si une telle tension dangereuse risque de se produire, les bornes ou les

connexions du module ne doivent pas être accessibles par l'utilisateur.

Le couvercle et le châssis du module sont conçus pour protéger des personnels expérimentés. Ils ne doivent pas

être utilisés comme couvercles extérieurs d'un équipement, accessible aux opérateurs car en condition de puissance

maximum, des parties du châssis peuvent atteindre des températures considérées comme dangereuses pour

l'opérateur.

PFE1000FA Installation Manual TDKLambda Norma generali di sicurezza: A

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ITALIANO

Norme generali di sicurezza:

SI PREGA DI LEGGERE LE NORME DI SICUREZZA

Manutenzione:

Il cliente non può eseguire alcuna manutenzione su questi prodotti. L'esecuzione delle eventuali riparazioni è

consentita solo a TDK-Lambda UK LTD e ai suoi agenti autorizzati.

Componenti critici:

Non si autorizza l'uso di questi prodotti come componenti critici all'interno di sistemi di controllo nucleari, sistemi

necessari alla sopravvivenza o apparecchiature destinate all'impiego in ambienti pericolosi, senza l'esplicita

approvazione scritta dell'Amministratore Delegato di TDK-Lambda EMEA.

Uso dei prodotti:

Questi prodotti sono progettati per l'uso all'interno di un'apparecchiatura ospite che limiti l'accesso al solo personale

competente e autorizzato.

Questo prodotto è da considerarsi come un alimentatore professionale componente e come tale deve essere

installato da personale qualificato all'interno di altre apparecchiature e non può essere utilizzato come prodotto

indipendente.

Questo prodotto non è inteso per la vendita al dettaglio o agli utilizzatori finali.

Questo alimentatore è da considerarsi come un componente e come tale non è assogettato dagli scopi della direttiva

EMC. Conformità alla direttiva EMC deve essere considerata nell'installazione finale di utilizzo. Gli uffici di TDK-

Lambda Sas Succursale Italiana sono a vostra disposizione per ulteriori ragguagli.

Condizioni ambientali:

Questi prodotti sono classificati come IPX0, dunque non devono essere utilizzati sostanze chimiche/solventi, prodotti

per la pulizia o liquidi di altra natura.

Ambiente:

Questo prodotto è un alimentatore a commutazione, destinato all'uso in applicazioni rientranti in ambienti con le

seguenti caratteristiche: Livello inquinamento 2, Categoria sovratensione II. Questo prodotto contiene schede di

circuiti stampati in materiali di Gruppo IIIb.

Carico in uscita:

La potenza in uscita ottenuta dall'alimentatore non deve superare la potenza nominale indicata sulla targhetta

dell'alimentatore, fatto salvo dove indicato nei limiti per i prodotto specificati in questo manuale.

Parametri di alimentazione:

Questo prodotto deve essere utilizzato entro i parametri di alimentazione indicati nei limiti per il prodotto, specificati

in questo manuale.

Smaltimento:

L'unità contiene componenti che richiedono procedure speciali di smaltimento. Accertarsi che l'unità venga smaltita

in modo corretto al termine della vita utile e nel rispetto delle normative locali.

RISCHIO DI SCOSSA ELETTRICA

Avvertimento di alta tensione:

All'interno dell'alimentatore sono presenti tensioni pericolose. Gli installatori professionali devono proteggere il

personale di manutenzione dal rischio di contatto accidentale con queste tensioni pericolose all'interno

dell'apparecchiatura finale.

ATTENZIONE: Se installato in un’attrezzatura di classe I, questo prodotto deve essere collegato a terra in modo

affidabile ed installato in modo professionale.

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Le uscite (+) o (-) possono essere messa a terra o lasciate isolate.

I coperchi/il telaio dell'unità non devono essere accessibili da parte dell'utente.

Il connettore dell'alimentazione principale non può essere utilizzato come terminale di collegamento di campo.

Non utilizzare viti che penetrano nell'unità per più di : Vedi disegni

Un fusibile interno protegge l'unità e non deve essere sostituito dall'utente. Nell'eventualità di un difetto interno,

restituire l'unità a TDK-Lambda UK LTD o a uno dei suoi agenti autorizzati.

L'apparecchiatura finale deve includere una recinzione meccanica, elettrica e antincendio per proteggere dai pericoli

di natura meccanica, dalle scosse elettriche e dai pericoli di incendio.

Pericoli energetici:

Alcuni moduli sono in grado di erogare energia pericolosa (240 VA) a seconda della tensione in uscita impostata. I

produttori delle apparecchiature finali sono tenuti a proteggere il personale di manutenzione dal rischio di contatto

accidentale con questi terminali dei moduli di uscita. Se impostati su livelli che non escludono l'erogazione di energia

pericolosa, questi terminali o collegamenti non devono risultare accessibili da parte dell'utente.

Il coperchio/telaio dell'unità è realizzato per proteggere il personale esperto dai pericoli. Non deve essere usato

come parte degli involucri esterni di qualsiasi apparecchiatura, se risulta accessibile da parte degli addetti, poiché è

possibile che in condizioni di pieno carico una o più parti del telaio dell'unità giunga/giungano a temperature superiori

ai limiti considerati sicuri per l'accesso da parte degli addetti.

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ESPAÑOL

Instrucciones generales de seguridad:

LEA LAS INSTRUCCIONES DE SEGURIDAD

Servicio:

Estos productos no pueden ser reparados por los clientes. TDK-Lambda UK LTD. y sus agentes autorizados son

los únicos que pueden llevar a cabo las reparaciones.

Componentes fundamentales:

Estos productos no pueden ser utilizados como componentes fundamentales en sistemas de control nuclear,

sistemas de soporte vital o equipos a utilizar en entornos peligrosos sin el consentimiento expreso por escrito del

Director General de TDK-Lambda EMEA.

Uso de los productos:

Estos productos han sido diseñados para ser utilizados en un equipo central que restrinja el acceso al personal

cualificado autorizado.

Este producto es una fuente de alimentación y sólo puede ser instalado por personal cualificado dentro de otros

equipos y no debe ser tratado como un producto independiente. Este producto debe ser vendido entre empresas

profesionales y solo puede obtenerse a través de los canales de distribución .No está destinado para la venta a

usuarios finales

Este producto es una fuente de alimentación y no se ve afectada por la directiva EMC . El cumplimiento de la

directiva EMC se debe considerar en la instalación final. Por favor, póngase en contacto con su oficina local de TDK

– Lambda.

Medioambiental:

Estos productos son IPX0 y, por tanto, no pueden utilizarse sustancias químicas/disolventes, agentes de limpieza ni

otros líquidos.

Medio ambiente:

Esta fuente de alimentación es una fuente de alimentación de modo conmutado a utilizar en aplicaciones dentro de

un entorno con un Grado de contaminación 2 y una Categoría de sobretensión II. En él se utilizan policloruros de

bifenilo del Grupo de materiales IIIb.

Carga de salida:

La potencia de salida tomada de la fuente de alimentación no puede sobrepasar el valor nominal indicado en la

etiqueta de la fuente de alimentación, excepto en los casos indicados en las limitaciones del producto en este

manual.

Parámetros de entrada:

Este producto debe ser utilizado dentro de los parámetros de entrada indicados en las limitaciones del producto en

este manual.

Desecho de la unidad:

La unidad contiene componentes que deben ser desechados de una manera especial. Asegúrese de desechar

correctamente la unidad al final de su vida útil y conforme a las normas locales vigentes.

PELIGRO DE DESCARGAS ELÉCTRICAS

Advertencia de alta tensión:

En esta fuente de alimentación hay tensiones peligrosas. El instalador profesional debe proteger al personal de

servicio contra cualquier contacto accidental con estas tensiones peligrosas en el equipo final.

ADVERTENCIA: La instalación de este producto en un equipo de clase I la deben llevar a cabo profesionales y el

producto debe estar conectado a tierra.

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La salida o salidas (+) o (-) pueden conectarse a tierra o se las puede dejar flotando.

Debe impedirse el acceso de los usuarios a la cubierta o cubiertas y al chasis de la unidad.

El conector de entrada de la red no es apto para ser utilizado a modo de bornes de cableado de campo.

No utilice tornillos de montaje susceptibles de penetrar en la unidad más de: Ver dibujos.

Un fusible interno protege la unidad y este no debe ser nunca reemplazado por el usuario. En caso de existir algún

defecto interno, la unidad debe ser enviada a TDK-Lambda UK LTD o a uno de sus agentes autorizados.

El equipo de uso final debe constituir un recinto de protección mecánica, eléctrica y contra incendios de protección

mecánica, contra descargas eléctricas y contra el peligro de incendios.

Peligros de energía:

Algunos módulos pueden generar energía peligrosa (240VA) dependiendo de la configuración de la tensión de

salida. Los fabricantes de equipos finales deben proteger al personal de servicio contra un contacto accidental con

estos bornes de salida de los módulos. Si se configura de modo que pueda generarse energía peligrosa, hay que

evitar que el usuario pueda acceder a los bornes o conexiones del módulo.

La cubierta/chasis de la unidad ha sido diseñada para que proteja a las personas cualificadas de los peligros. No

deben ser utilizadas como parte de las cubiertas externas de cualquier equipo al que pueden acceder los operarios,

ya que bajo unas condiciones de carga completa, la pieza o piezas del chasis de la unidad pueden alcanzar

temperaturas superiores a las consideradas seguras para el acceso de los operarios.

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PORTUGUÊS

Instruções gerais de segurança:

LEIA AS INSTRUÇÕES DE SEGURANÇA

Manutenção:

Estes produtos não são podem ser submetidos a manutenção por parte do cliente. Apenas a TDK-Lambda UK LTD

e os seus agentes autorizados têm permissão para realizar reparações.

Componentes essenciais:

Não é autorizada a utilização destes produtos como componentes essenciais de sistemas de controlo nuclear,

sistemas de suporte de vida ou equipamento para utilização em ambientes perigosos sem a expressa autorização

por escrito do Director-Geral da TDK-Lambda EMEA.

Utilização do produto:

Estes produtos foram concebidos para utilização dentro de um equipamento de alojamento que apenas permita o

acesso a pessoal qualificado autorizado.

Este produto é uma alimentaçao considerado com um componente para ser instalado por pessoas qualificadas, em

outros equipamentos. Não deve ser usado como um produto acabado.

Este produto é destinado para venda entre as empresas e pode ser obtido através de canais de distribuição.

Não se destina à venda aos particulares.

Este produto é uma alimentaçao considerado com um componente, não é dentro do appliquation âmbito da directiva

CEM.

Conformidade com a directiva CEM devem ser considerados na instalação final.

Entre em contacto com seu escritório TDK-Lambda mais próximo.

Ambiental:

Estes produtos são IPX0 e, como tal, não se devem utilizar químicos/solventes, agentes de limpeza e outros

líquidos.

Ambiente:

Esta fonte de alimentação é uma fonte de alimentação do modo de comutação para utilização em aplicações com

um Nível de Poluição 2 e ambientes da categoria de sobretensão II. São utilizadas placas de circuitos impressos do

grupo de materiais IIIb.

Carga de saída:

A potência de saída extraída da fonte de alimentação não deve exceder a classificação assinalada na etiqueta da

fonte de alimentação, excepto quando indicado nas limitações do produto neste guia.

Parâmetros de entrada:

Este produto deve ser utilizado dentro dos parâmetros de entrada indicados nas limitações do produto neste guia.

Eliminação no fim de vida:

A unidade contém componentes que necessitam de procedimentos especiais de eliminação. Certifique-se de que a

unidade é devidamente eliminada no fim da sua vida útil e que tal é feito em conformidade com os regulamentos

locais.

RISCO DE CHOQUE ELÉCTRICO

Aviso de alta tensão:

Estão presentes tensões perigosas dentro da fonte de alimentação. O profissional que realizar a instalação deve

proteger o pessoal de assistência contra contactos inadvertidos com estas tensões perigosas do equipamento final.

AVISO: Quando instalado num equipamento de Classe I, este produto deve ser ligado à terra de forma fiável e

instalado por um profissional.

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As saídas (+) e (-) podem ser ligadas à terra ou deixadas soltas.

O chassis/cobertura(s) da unidade não deve estar acessível ao utilizador.

O conector de entrada de alimentação não deve ser utilizado como terminal de cablagens no local.

Não utilize parafusos de montagem, uma vez que estes penetrarão na unidade em mais do que: Veja os desenhos

Existe um fusível interno que protege a unidade e que não deve ser substituído pelo utilizador. Em caso de defeito

interno, a unidade deve ser devolvida à TDK-Lambda UK LTD ou a um dos seus agentes autorizados.

O equipamento de utilização final deve fornecer um bastidor com protecção mecânica, eléctrica e contra incêndios

adequada.

Perigos de energia:

Alguns módulos tem a capacidade de fornecer energia perigosa (240 VA), de acordo com a configuração da tensão

de saída. O equipamento final do fabricante deve garantir que o pessoal de assistência está protegido contra

contactos inadvertidos com estes terminais de saída do módulo. Se essa energia perigosa for produzida, as

ligações e os terminais do módulo não devem ser acessíveis pelos utilizadores.

O chassis/cobertura da unidade está concebido de forma a proteger o pessoal especializado de perigos. Não devem

ser utilizados como parte das coberturas externas de qualquer equipamento em que possam estar acessíveis aos

operadores, uma vez que em condições de carga máxima, algumas peças do chassis da unidade podem atingir

temperaturas superiores às consideradas seguras para o acesso do operador.

TDK-Lambda UK Ltd

Kingsley Avenue, Ilfracombe

Devon, EX34 8ES

Telephone - Sales and Service +44 (0)1271 856666

Head Ofﬁce and Works +44 (0)1271 856600

Facsimile +44 (0)1271 864894

WEBSITE: www.uk.tdk-lambda.com

l->

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

1/20 C2700411

PFE1000FA Series

Instruction Manual

BEFORE USING THE POWER SUPPLY UNIT (Common)

Be sure to read this instruction manual thoroughly before using this product.

Pay attention to all cautions and warnings before Using this product. Incorrect usage could lead to an electrical shock,

damage to the unit or a fire hazard.

DANGER

・Never use this product in locations where flammable gas or ignitable substances are present.

INSTALLATION WARNING

・When installing, ensure that work is done in accordance with the instruction manual. When installation is improper, there is

risk of electric shock and fire.

・Installation shall be done by service personnel with necessary and appropriate technical training and experience. There is a

risk of electric shock and fire.

・Do not cover the product with cloth or paper etc. Do not place anything flammable around. This might cause damage, electric

shock or fire.

WARNING on USE

・Do not touch this product or its internal components while circuit is operation, or shortly after shutdown. You may receive a

burn.

・While this product is operating, keep your hands and face away from it as you may be injured by an unexpected situation.

・For products with no cover, do not touch them as there are highvoltage and high temperature parts inside. Touching them

might cause injury such as electric shock or burn.

・There are cases where high voltage charge remains inside the product. Therefore, do not touch even if they are not in

operation as you might get injured due to high voltage and high temperature. You might also get electric shock or burn.

・Do not make unauthorized changes to this product nor remove the cover as you might get an electric shock or might damage

the product. We will not be held responsible after the product has been modified, changed or disassembled.

・Do not use this product under unusual condition such as emission of smoke or abnormal smell and sound etc. Please stop

using it immediately and shut off the product. It might lead to fire and electric shock. In such cases, please contact us.

Do not attempt repair by yourself, as it is dangerous for the user.

・Do not operate and store these products in environments where condensation occurs due to moisture and humidity. It might

lead fire and electric shock.

・Do not drop or apply shock to this product. It might cause failure. Do not operate these products mechanical stress is

applied.

CAUTION on MOUNTING

・Confirm connections to input/output terminals are correct as indicated in the instruction manual before switching on.

・Input voltage, Output current, Output power, Baseplate temperature, ambient temperature and ambient humidity should be

kept within specifications, otherwise the product will be damaged.

・Input line, please use the wires as short and thick as possible.

・Do not use this product in special environment with strong electromagnetic field, corrosive gas or conductive substances

and direct sunlight, or places where product is exposed to water or rain.

・Mount this product properly in accordance with the instruction manual, mounting direction and shall be properly be

ventilated.

・Please shut down the input when connecting input and output of the product.

・When mounted in environments where there is conductive foreign matter, dust or liquid, there is possibility of product

failure or malfunction. Such as install filter, please consider that a conductive foreign matter, dust and liquid do not invade

inside the power supply.

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

2/20

CAUTION on USE

・Product individual notes are shown in the instruction manual. If there is any difference with common notes individual notes

shall have priority.

・Before using this product, be sure to read the catalog and instruction manual. There is risk of electric shock or damage to

the product or fire due to improper use.

・Input voltage, Output current, Output power, Baseplate temperature, ambient temperature and ambient humidity should be

kept within specifications, otherwise the product will be damaged, or cause electric shock or fire.

・As our product is standard industrial use product that was manufactured by purpose that is used to an general electronics

equipment etc., it is not products that to designed for High Safety uses (Uses extremely high reliability and safety are required,

if reliability and safety has not been secured, with significant dangerousness for directly life or body) is expected. Please

consider a fail safe (systems that was provided with protection circuit protective devices or systems that redundant circuit was

mounted so that was not unstable in single failure) design enough.

・The equipment has been evaluated for use in a Pollution Degree 2 environment.

・When used in environments with strong electromagnetic field, there is possibility of product damage due to malfunction.

・When used in environments where there is conductive foreign matter, dust or liquid, there is possibility of product failure or

malfunction.

・Provide countermeasure for prevention of lightning surge voltage as there is risk of damage due to abnormal voltage.

・Take care not to apply external abnormal voltage to the output. Especially, applying reverse voltage or overvoltage more

than the rated voltage to the output might cause failure, electric shock or fire.

・Do not use this product in special environment with strong electromagnetic field, corrosive gas or conductive substances and

direct sunlight, or places where product is exposed to water or rain.

・Never operate the product under overcurrent or short circuit conditions. Insulation failure, or other damages may occur.

・Protection must be provided for Service Engineers against indirect contact with the output terminals and/or to prevent tools

being dropped across them. While working on this product, the AC input power must be switched off and the input, output,

+BC, BC and R terminal voltage should be safe level.

・The application circuits and their parameters are for reference only. Be sure to verify effectiveness of these circuits and their

parameters before finalizing the circuit design.

・Excessive stress could cause damage. Therefore, please handle with care.

・Use a FastBlow external fuse to each module to ensure safe operation and compliance with the safety standards to which it

is approved. The recommended input fuse rating within the instructions is as follows: 25A, 250V fast acting fuse.

For externally mounted fuse do not use other fuses aside from our specified and recommended fuse.

・If the externally mounted fuse is blown, do not use the product even after replacing the fuse. There is risk of abnormality

inside. Be sure to request repair to our company.

・The outputs less than 28V model has possibility that hazardous voltage may occur in output terminal depending on failure

mode. The output of these products must be protected in the end use equipment to maintain SELV.

・48V output model are considered nonSELV. End equipment manufacturers must provide protection against inadvertent

contact by a service engineer.

Note

・Consider storage of the product at normal temperature and humidity avoiding direct exposure to sunlight at environment with

minimal temperature and humidity changes. Storage of product at high temperature, high humidity and environments with severe

changes in temperature and humidity might cause deterioration, and occurrence of condensation in the product.

・When disposing product, follow disposal laws of each municipality.

・If products are exported, please register the export license application etc. by the Government of Japan according to Foreign

Exchange and Foreign Trade Control Law.

・This information in this document is subject to change without prior notice. Please refer to the latest version of the data

sheet, etc., for the most upto date specifications of the product.

・No part of this document may be copied or reproduced in any form without prior written consent TDKLambda.

Note : CE MARKING

CE Marking, when applied to a product covered by this handbook, indicates compliance with the low voltage directive.

OQHé OOOO. 000000000 0 O COO 0000

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

: Remote sensing terminal

: +Remote sensing terminal

: Output current balance terminal

: Output voltage trimming terminal

: +ON/OFF control terminal

: Inverter operation good terminal

: ON/OFF control terminal

: Power on signal terminal

: Auxiliary power supply terminal

for external circuits

: Common ground terminal

3/20

1. Model name identification method

PFE 1000 FA  12 /

2. Terminal Explanation

AC(N)

AC(L)

+BC

BC

V

Rated Output Voltage

Full function

Output Power type

Series Name

: Input terminal neutral line

: Input terminal live line

: External inrush current limiting

resister terminal

: +Boosted voltage terminal

: Boosted voltage terminal

: +Output voltage

: Output voltage

Option(*1) (*1)/Blank Standard

/T Mounting stand 3.3

(Nonthreaded through hole)

Name plate

S

TRM

+ON/OFF

IOG

ON/OFF

ENA

AUX

COM

・Baseplate can be connected to FG through M3 mounting tapped holes.

・Consider contact resistance when connecting AC(L), AC(N), R, +BC, BC, +V, V.

・Note that +BC and BC terminals are primary voltage with high voltage (385VDC).

Do not connect load to these terminals. It might result in power module damage.

8 9

12 13

14 15

‘VL‘ 11‘ MMMMH +++

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

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3. Block Diagram

Switching Frequency

PFHC circuit(fixed) : 100kHz

DC/DC converter(fixed) : 230kHz (primary) , 460kHz (secondary)

+ON/OFF

ON/OFF

4. Sequence Time Chart

V* voltage level: Refer to Application Notes “69.Power ON Signal”section.

V** voltage level: Refer to Application Notes “65.Over Current Protection”section.

Input voltage

detector

PFHC & BPS

control circuit

Rectifier

Filter

OVP

DCDC

control circuit

OCP

Rectifier

Output filter

V

IOG

TRIM

S

AC(L)

AC(N)

Inrush current

limiting circuit

+BC BCR

OTP

ENA

AUX

COM

PFHC DC/DC Converter

OCP

OVP

Input current

detector

OCP

OTP

Switching circuit

LVP

Bias power

supply

PFHC circuit

Boost voltage

detector

Secondary

control

Output voltage

detector

Input voltage

detector

Input

voltage

(AC)

Output

voltage

BC terminal

voltage

(Boosted voltage)

ON/OFF

control

IOG

ENA

Input line

OFF

Input line

AUX

Control OFF

Control ON

Control OFF

Control ON

Control OFF

Control ON

LVP trip

Control OFF

Control ON

385VDC

(Typ)

V* V*

OVP trip point

OCP trip point LVP trip point

V**

OVP trip

OCP active

OTP trip

zzz [

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

5/20

5. Terminal Connecting Method

Fig.51 Basic connection

Load

PFE1000FA

C15

AC(L)

AC(N)

V

S

ENA

BC+BC

BASE

PLATE

C16

C17

L= 50mm

C18



C4 C8

L1 L2

C10

C12

TFR1

IOG

AUX

COM

+ON/OFF

ON/OFF

TRIM

C13

C19

Input Filter

(For VCCIclassA)

TFR2

C14

C11

In order to use the PFE1000FA Series, this module must be connected with external components according

to Fig.51.

Pay attention to the each wiring. If it is connected to wrong terminal, the power supply will be damaged.

PFE1000FA Series employs conduction cooling method. Use heat sink and fan to dissipate heat.

For selection of heat sink and heat sink dissipation method, refer to the Power Module Application Note.

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

6/20

F1 External Input Fuse

PFE1000FA Series has no internal fuse. Use external fuse to acquire each safety standard and to further

improve safety.

PFE1000FA Series acquired safety standard certification using 25A, 250V, FastBlow external fuse.

Further, FastBlow type fuse must be used per one module. Also, inrush surge current flows during line

throwin. Be sure to check I2t rating of external switch and external fuse.

Recommended External Fuse ：25A, 250V

Note) Select fuse based on rated voltage, rated current and surge current capability.

(1)Voltage Ratings

100VAC line : AC125V

200VAC line : AC250V

(2)Current Ratings

Rated current is determined by the maximum input current based on operating conditions and can be

calculated by the following formula.

(Formula 51)

Iin (max) : Maximum Input Current

Pout : Maximum Output Power

Vin : Minimum Input Voltage

η: Efficiency

PF : Power Factor

For Efficiency and Power Factor values, refer to separate document “PFE1000FA Series Evaluation

Data”.

C1, C4, C5, C8 : 1uF (Film Capacitor)

Ripple current flows through this capacitor. When selecting capacitor, be sure to check the allowable

maximum ripple current rating of this capacitor. Verify the actual ripple current flowing through this

capacitor by doing actual measurement.

Connect C8 as close as possible toward the input terminals AC(N) and AC(L) of this power module.

Recommended Voltage Rating : 250VAC

L1, L2, L3 : 2mH

Add common mode choke coil as EMI/EMS countermeasure.

When using multiple modules, connect coil to each module.

Note) Depending on the input filter used, noise might increase or power module might malfunction due to

filter resonance.

(Arms)　

PFηVin

Pout

(max) Iin ´´

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PFE1000FA Series

TDKLambda

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C2, C3 : 470pF (Ceramic Capacitor)

Add ceramic capacitor as EMI/EMS countermeasure. Be sure to consider leakage current of your equipment

when adding this capacitor.

High withstand voltage are applied across this capacitor depending on the application. Select capacitor with

high withstand voltage rating.

R1 : 470kΩ

Connect bleeder resistor across AC(L) and AC(N) terminals.

C6, C7 : 4700pF (Ceramic Capacitor)

Add ceramic capacitor as EMI/EMS countermeasure. Be sure to consider leakage current of your equipment

when adding this capacitor.

High withstand voltage are applied across these capacitor during withstand voltage test depending on the

application. Select capacitors with high withstand voltage rating.

Connect C6 as close as possible to AC(L) terminal, C7 as close as possible to AC(N) terminal.

C9, C10 : 1uF (Film Capacitor)

Ripple current flows through this capacitor. When selecting capacitor, be sure to check the allowable

maximum ripple current rating of this capacitor.

Verify the actual ripple current flowing through this capacitor by doing actual measurement.

Connect C9 as close as possible to R terminal and BC terminal, C10 as close as possible to +BC terminal

and BC terminal.

Recommended Voltage Rating : 450VDC

Note) Select capacitor with more than 3A (rms) rating.

C11, C12, C13, C14 : 390uF (Electrolytic Capacitor)

Refer to “Selection Method of External Bulk Capacitor for Boost Voltage” below.

Allowable external capacitance at nominal capacitance value is shown below.

Recommended Voltage Rating：450VDC

Recommended Total Capacitance：780uF  2300uF

Note) 1. Do not connect capacitors with more than the above capacitance value as this would result into

power module damage.

2.When using module below 20˚C ambient temperature, AC ripple of boost voltage, output ripple

voltage might be affected by ESR characteristics of the bulk capacitors. Therefore, be sure to

verify characteristics by actual evaluation.

C15, C16 : 0.033uF

Connect ceramic or film capacitor as EMI/EMS countermeasure and to reduce spike noise.

High withstand voltage is applied across this capacitor during withstand voltage test depending on the

application.

Connect C15 as close as possible to +V terminal, C16 as close as possible to V terminal.

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

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8/20

C17 : Refer to Table 51

To reduce output ripple noise voltage, connect electrolytic capacitors across +V and V.

Connect C17 as close as possible to the +V and V output terminals of this power module.

Table 51 C17 : Recommended output external capacitance

C18 : 2.2uF (Ceramic Capacitor)

Connect chip ceramic capacitor at 50mm from the output terminals +V and V of the power module to

reduce output spike noise.

Also, note that output spike voltage may vary depending on the wiring pattern of the printed circuit board.

C19 : Refer to Table 52

Connect C19 at 50mm from the output terminals +V and V of the power module to stabilize operation.

Note that the output ripple and line turn off characteristics of the power module might be affected by the

ESR and ESL of the electrolytic capacitor.

Also, note that output ripple voltage may vary depending on the wiring pattern of the printed circuit board.

Sudden change in output voltage due to sudden load change or sudden input voltage change can be reduced

by increasing external output capacitance value.

Table 52 C19 : Recommended output external capacitance

Note) 1. Use lowimpedance electrolytic capacitors with excellent temperature characteristics.

(Nihon Chemicon LXY Series or equivalent)

(Nichicon PM Series or equivalent)

2. For module operation at ambient temperature 20˚C or less, output ripple voltage might be affected

by ESR characteristics of the electrolytic capacitors. Increase the capacitance values shown in

Table 51 and 52 according to the table below.

Table 53 C17,C19 : Recommended output external capacitance(Ambient Temperature ≤20˚C)

3. Take note of the maximum allowable ripple current of the electrolytic capacitor used.

Especially, for sudden load current changes, verify actual ripple current and make sure that

allowable maximum ripple current is not be exceeded.

For connection other than recommended capacitance, be sure to verify characteristics by actual evaluation.

Output voltage

12V

28V

C19

25V 1000uF

50V 470uF

48V 100V 220uF

Output voltage

12V

28V

C17

25V 1000uF

50V 470uF

48V 100V 220uF

Output voltage

12V

28V

C17, C19

25V 1000uF × 2 parallel

50V 470uF × 2 parallel

48V 100V 220uF × 2 parallel

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

100

120

0 400 800 1200 1600 2000 2400

300

600

900

1200

1500

1800

2100

0 200 400 600 800 1000

9/20

● Selection Method of External Bulk Capacitor for Boost Voltage

Boost voltage bulk capacitor is determined by boost voltage ripple voltage, ripple current and holdup time.

Select capacitor value such that boost voltage ripple voltage does not exceed 15Vpp.

Note) When ambient temperature is 20˚C or less, ripple voltage of boost voltage might increase due to ESR

Characteristics. Therefore, verify above characteristics by actual evaluation.

For output holdup time, refer to separate document “PFE1000FA Series Evaluation Data" and use

appropriate capacitor up to 2300uF maximum.

It is recommended that verification should be done through actual evaluation.

For allowable ripple current value, refer to Fig.52 and select a capacitor with higher ripple current rating.

The recommended boost voltage bulk capacitance value range is 780uF2300uF.

When using with reduced the bulk capacitance value, it is necessary to reduce output power as shown in

Fig.53.

Fig.53 shows recommended value at 25˚C baseplate temperature. Temperature variance might have

some effect on the characteristics. Therefore, verify characteristics by performing actual evaluation.

Refer to “Fig.71 Baseplate Measuring Point”.

Note that reducing the bulk capacitance affects output holdup time, dynamic line response and dynamic

load response characteristics. It is recommended that verification should be done through actual evaluation.

Fig.52 Allowable ripple current value

200VAC

100VAC

Tbp=25˚C

Fig.53 Output Power v.s. Boost Voltage Bulk Capacitance

2300uF

780uF Tbp=25˚C

Bulk cap. (uF)

Output power (%)

Ripple current (mArms)

Output power (W)

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

0 400 800 1200 1600 2000 2400

10/20

TFR1,TFR2 : 10Ω  30Ω (Total value TFR1+TFR2 =10  30 )

By connecting thermal fuse resistor across R and +BC terminals as shown in Fig.51, inrush current

during line throwin can be suppressed. Failures due to inrush current such as melting of external fuse,

welding of relay or switch connecting joints or shutdown of NoFuse Breakers (NFB) can occur.

Therefore, be sure to connect this external thermal fuse resistor of 10Ω or more.

The allowable resistance value is limited by the external bulk capacitance value of shown in FIg.54.

Note that power supply will not operate if this external resistor is not connected.

●Selection Method of External Resistor

(1)Calculating Resistance Value for TFR1+TFR2

Resistance can be calculated by the formula below.

(Formula 52)

R : Resistance Value for External TFR1+TFR2

Vin : Input Voltage converted to DC value = Input Voltage (rms)×

Irush : Input surge current value

(2)Required Surge Current Rating

Sufficient surge current withstand capability is required for external TFR1+TFR2.

Required surge current rating can be selected by I2t. (Current squared multiplied by time)

(Formula 53)

I2t : Currentsquared multiplied by time

Co : Boost Voltage Bulk Capacitance

Vin : Input Voltage converted to DC value = Input Voltage (rms)×

R : Resistance Value for External TFR1+TFR2

(3)TFR1+TFR2 limitation

TFR1+TFR2 is limited as shown in Fig.54.

Graph below shows resistor value at 25˚C baseplate temperature. Input surge current might vary due

to temperature. Therefore, verify characteristics by performing actual evaluation.

)(Ω　

Irush

Vin

)(

2sA

VinCo

Fig.54 TFR1+TFR2 v.s. Boost Voltage Bulk Capacitance

Bulk cap. (uF)

TFR1+TFR2 (Ω)

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

<Page>

11/20

61. Input Voltage

Input voltage range is single phase 85265VAC(4763Hz).

Take care not to apply input voltage which is out specified range nor should a DC input voltage be applied as

this would result into power supply damage.

For cases where conformance to various safeties required, described as 100240VAC (5060Hz)

62. Output Voltage Range

Output voltage can be adjusted within the range below by connecting fixed and variable resistors.

However, take care not to exceed the output voltage range shown below because OVP function will activate.

Output Voltage Adjustment Range : +/20% of the typical voltage rating

When increasing output voltage, reduce output current so as not to exceed maximum output power.

Even if the output voltage is adjusted using external circuit shown in Fig.61, remote sensing can be done.

For details on Remote Sensing function, refer to “67. Remote Sensing”.

●Output Voltage Adjustment using Fixed and Variable Resistors

External resistor (R2) and variable resistor (VR) values, as well as, circuit connection is shown below.

For this case, remote programming of the output voltage can be done through the remote programming

resistor VR.

Be sure to connect the remote programming resistor between +S and +V terminals.

Table 61 External Resistor and Variable Resistor Value (For +/20% Output Adjustment)

External Resistor (R2) ：Tolerance +/5% or less

Variable Resistor (VR) ：Total Tolerance +/20% or less End Resistance 1% or less

●Output Voltage Adjustment by applying external voltage

By applying external voltage at the TRIM terminal, output voltage can be adjusted within the same output

voltage adjustment range as the output voltage adjustment by external resistor or variable resistor.

For this case, output voltage can be determined by the formula shown below.

Output Voltage ＝TRIM Terminal Voltage × Nominal Output Voltage

6. Explanation of Functions and Precautions

Fig.61 External resistor connection example

12V

18kΩ

10kΩ

28V

18kΩ

20kΩ

48V

18kΩ

50kΩ

S

V

TRIM



Load

C17 C19

C18

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TDKLambda

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For applications other than the above, refer to the TRIM circuit as shown in Fig.63 and determine external

circuit and components values.

63. Over Voltage Protection (OVP)

This module is equipped with OVP function. OVP function operates within 125%145% of nominal output

voltage. When OVP triggers, the output will be shut down. When the OVP function activates, first cut off

input line and verify that boost voltage has dropped down to 20V or less. Then, recover output by recycling

input line. In other method, reset to ON/OFF control.

OVP value is fixed and cannot be set externally.

Pay attention not to apply higher voltage externally to the output terminal to avoid power supply damage.

64. Over Current Protection (OCP)

This module is equipped with OCP function. Constant current limiting with delay shutdown for PFE1000FA

Series. Output will be shutdown when output about under 70% by short circuit or overload condition that

continue about 0.5s. When the shutdown function activates, first cut off input line and verify that boost

voltage has dropped down to 20V or less. Then, recover output by recycling input line. In other method,

reset to ON/OFF control.

OCP value is fixed and cannot be adjusted externally.

Note that continuous short circuit or overload condition, might result in power module damage.

65. Over Temperature Protection (OTP)

This module is equipped with OTP function. This function will activate and shutdown the output when

ambient temperature or internal temperature abnormally rises. OTP activates at following baseplate

temperature.

Baseplate temperature(Tbp) : 105˚C  130˚C

When OTP function operates, output can be recovered by cooling down the baseplate sufficiently and letting

the Boost voltage drop down to 20V or less before recycling the input line. In other method, reset to ON/OFF

control.

S

V

TRIM



Load

Fig.62 Output voltage adjustment by applying external voltage

C17 C19

C18

7.32kΩ

32.4kΩ1kΩ

1.225V

Reference

voltage

S

TRIM

Error amplifier

Fig.63 Internal TRIM circuit (for the reference)

INSTRUCTION MANUAL

PFE1000FA Series

TDKLambda

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66. Remote Sensing (+S, S Terminals)

This module has remote sensing terminals to compensate for voltage line drop from the output terminals to

the output load. When remote sensing is not required, (local sensing) short +S to +V and S to V terminals

respectively.

Note that line drop (voltage drop due to wiring ) compensation voltage range must be such that the output

voltage is within the output voltage adjustment range and that the voltage between V and S must be within

2V.

Consider power loss due to line drop and use power supply within the maximum allowable output power.

Before using, do adequate prior evaluation such that module does not receive any effect of noise by using a

parallel pattern, etc. for remote sensing line.

67. ON/OFF Control (+ON/OFF, ON/OFF Terminal)

This module is equipped with ON/OFF control function.

It is possible to ON/OFF control of output voltage at input applied state by using this function.

The ON/OFF control circuit is isolated from input circuit of the power supply by photocoupler.

Fig.66 and Fig.67 is connection example of ON/OFF control.

When the ON/OFF control is not used, short +ON/OFF to AUX and ON/OFF to COM terminals

respectively.

Select the external voltage and external resistance, as the ON/OFF terminals current is shown below.

Table 62 Recommended ON/OFF terminal current

S

V

Load



Parallel pattern

(Example)

Output voltage stable at load terminal

C17

C18

C19

S

V

Load



Output voltage stable at power module output

terminals

Fig.64 Remote sensing is used Fig.65 Remote sensing is not used

(local sensing)

ON/OFF

+ON/OFF

AUX

COM

External

voltage

4.7k

OFF

11V

Fig.66 ON/OFF control connection example 1

(ON/OFF control by external voltage)

ON/OFF terminal current

2.5mA (±0.5mA)

Output Voltage

Less than 0.15mA OFF

C17

C18

C19

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TDKLambda

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68. Power ON Signal (ENA Terminal)

This signal is located at the secondary side (output side) and is an open drain output.

Maximum sink current ：10mA

Maximum applied voltage ：75V

Ground for the ENA terminal is the V terminal. When output voltage goes over a specified voltage level at

start up, Power ON signal is “Low level”. Output voltage threshold level is as follows.

Table 63 Output voltage in case an ENA signal changes

69. I.O.G Signal (IOG terminal)

Normal or abnormal operation of the power module can be monitored by using the IOG terminal. Output of

this signal monitor is located at secondary side (output side) and is an open collector output.

This signal is LOW when inverter is normally operating and HIGH when inverter stops or when inverter is

operating abnormally.

Maximum sink current ：5mA

Maximum applied voltage ：35V

Ground for the IOG terminal is the COM terminal.

Also note that IOG becomes unstable for following conditions:

･Operation of Over Current Protection (OCP)

･Light load conditions

･Dynamic load operation

610. Auxiliary Power Supply for External Circuits (AUX Terminal)

For AUX terminal, output voltage value is within 10～14VDC range, maximum output current is 20mA.

Ground for the AUX terminal is COM terminal.

Avoid short circuit of AUX terminal with other terminals as this would lead to power module damage.

ON/OFF

+ON/OFF

AUX

COM

4.7k ON

OFF

11V

ON/OFF

+ON/OFF

AUX

COM

4.7k

11V

Fig.67 ON/OFF control connection example 2

(ON/OFF control by builtin AUX)

Fig.68 ON/OFF control connection example 3

(ON/OFF control is not used)

ENA signal

High →Low

12V

6V(TYP)

28V

15V(TYP)

48V

28V(TYP)

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TDKLambda

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611. Parallel Operation (PC Terminal)

By connecting the PC terminal of each power module, output current can be equally drawn from each

module. A maximum of 6 units of the same model can be connected.

However, maximum output current is derated by parallel operation units as shown in Table 64. Note that

usage of power module at outofrated condition might result in power module temperature abnormal rise or

damage.

Table 64 Condition for parallel operation

Set the accuracy of the output voltage within +/2% when adjust the output voltage for parallel operation.

When adjust the output voltage by applying external voltage at the TRIM terminal, insert a about 10k ohm

resistor between TRIM terminal and external source.

Moreover, external circuits are necessary for TRIM terminal at each individual module.

At parallel operation, +BC, BC and R terminals must not be connected in parallel with other modules.

It might result in power module damage.

Refer to “Parallel Operation” of the PHSeries Application Notes for details.

612. Series Operation

Series operation is possible for PFE1000FA Series. Connections shown in Fig.610 and Fig.611 are

possible.

Parallel units

～3 units

Maximum output current

90% of nominal output current

4～6 units 85% of nominal output current

S

V

TRIM



Load

Fig.69 Output voltage adjustment by applying external voltage

(for parallel operation)

Fig.610 Series operation

for high output voltage applications

Fig.611 Series operation

±output series applications

C17

C18 C19

S

V

Load



S

V C17 C19

C19'C17'

S

V

Load



S

V



Load

C19C17

C19'C17'

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TDKLambda

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613. Maximum Ripple and Noise

This value is measured according to the description below in accordance with JEITA RC9131B.

In the basic connection shown in Fig.51, additional connection shown in Fig.612 is done for measurement.

Capacitor (Ceramic capacitor(C18) : 2.2µF and Electrolytic capacitor(C19) : refer to Table 52) must be

connected within 50mm from the output terminals. Then, connect coaxial cable with JEITA attachment

across the ceramic capacitor electrodes. Use 100MHz bandwidth oscilloscope or equivalent.

Also, note that output ripple voltage and output spike noise may vary depending on the wiring pattern of the

printed circuit board.

In general, output ripple voltage and output spike noise can be reduced by increasing external capacitor

value.

614. Isolation Resistance

Isolation resistance between Output  Baseplate is more than 100MΩat 500VDC. For safety operation,

voltage setting of DC isolation tester must be done before the test. Ensure that the unit is fully discharged

after the test.

Output  Baseplate：100MΩ or more at 500VDC

V

Oscilloscope

1.5m 50Ω

Coaxial cable

50mm

Load



JEITA

Attachment

R:50Ω

C:4700pF

C17

C18 C19

Frequency

bandwidth

100MHz

Fig.612 Output ripple voltage (including spike noise)

measurement method

Isolation resistance

tester

BASEPLATE

AC(N)

AC(L)

R +BC BC

V

S

TRIM

IOG

ENA

AUX

+ON/OFF

ON/OFF

COM

PFE1000FA

Fig.613 Isolation resistance test method

EL @ Da® Withstand Voltage

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TDKLambda

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615. Withstand Voltage Test

This series is designed to withstand 2.5kVAC between input and baseplate, 3.0kVAC between input and

output and 500VDC between output and baseplate each for 1 minute. When testing withstand voltage, set

current limit of withstand voltage test equipment at 20mA.

Be sure to apply DC voltage between output  baseplate. Avoid applying AC voltage during this test

because this will damage the power supply.

The applied voltage must be gradually increased from zero to testing value and then gradually decreased for

shut down. When timer is used, the power supply may be damaged by high impulse voltage at timer switch

on and off.

Connect each terminals according to the circuit diagram shown below.

Testing with External Application

The above Withstand Voltage Testing specification applies only to power module as standalone unit. Please take

note of the following points when Withstand Voltage Testing is performed with attached external application.

For connections shown in Fig.51, when injecting 3kVAC between Input  Output, Voltage Divider Ratio

between Input  Baseplate and Output  Baseplate will be affected by capacitance value ratio connected

between the Input  Baseplate and Output  Baseplate.

When selecting external capacitor at the Input  Baseplate and Output  Baseplate, take care of the capacitance

value and voltage rating.

Capacitor of Input  Baseplate : (C2,C3,C6,C7)

Capacitor of Output  Baseplate : (C15,C16)

BASEPLATE

AC(N)

AC(L)

R +BC BC

V

S

TRIM

IOG

ENA

AUX

+ON/OFF

ON/OFF

COM

PFE1000FA

Withstand

voltage tester

BASEPLATE

AC(N)

AC(L)

R +BC BC

V

S

TRIM

IOG

ENA

AUX

+ON/OFF

ON/OFF

COM

PFE1000FA

Withstand

voltage tester

Withstand

voltage tester

BASEPLATE

AC(N)

AC(L)

R +BC BC

V

S

TRIM

IOG

ENA

AUX

+ON/OFF

ON/OFF

COM

PFE1000FA

Fig.614 Input to baseplate withstand voltage test

method

2.5kVAC 1 minute (20mA) 3kVAC 1minute (20mA)

Fig.615 Input to output withstand voltage test

method

Fig.616 Output to baseplate withstand voltage test

method

500VDC 1 minute

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TDKLambda

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71. Mounting Method

These products can be used in any orientation but be sure to consider enough airflow to avoid heat

accumulation around the power supply. Consider surrounding components layout and set the PCB mounting

direction such that air can flow through the heat sink by forced or convection cooling. Refer to the power

module application note "Power module mounting method" for mounting method on PWB. This product can

operate at actual mounting condition when baseplate temperature and ambient temperature are maintained

at or below the following temperature.

PFE1000FA12 : 100˚C

PFE1000FA28,48 : 85˚C (85VAC≤Vin<170VAC)

: 100˚C (170VAC≤Vin≤265VAC)

Temperature at worst case operating condition at the measuring point shown in Fig.71 and Fig.72.

For Thermal Design details, refer to Application Notes “Thermal Design” section.

72. Output Derating

Operating temperature range is limited according to Fig.73.

To further improve the reliability, it is recommended to use this power supply with baseplate and ambient

temperature derating.

7. Mounting Method

Fig.71 Baseplate temperature measuring point Fig.72 Ambient temperature measuring point

40 20 0 20 40 60 80 100

100

Load (%)

Baseplate and ambient temperature (˚C)

40 20 0 20 40 60 80 100

100

Load (%)

85VAC ≤Vin < 170VAC

170VAC ≤Vin ≤265VAC

Baseplate and ambient temperature (˚C)

Fig.73(1) PFE1000FA12 derating curve Fig.73(2) PFE1000FA28, 48 derating curve

PFE1000FA28, 48

PFE1000FA12

Baseplate

temperature

measuring point

Ambient

temperature

measuring point

Z:25mm

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TDKLambda

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73. Recommended Soldering Condition

Recommended soldering temperature is as follows.

Soldering Dip ：260˚C, within 10 seconds

Preheat ：130˚C, within 60 seconds

74. Recommended washing Condition.

After soldering, following washing condition is recommended.

For other washing conditions, consult our Customer Support Group.

(1)Recommended washing solution

・IPA (Isopropyl Alcohol)

(2)Washing method

In order to avoid penetration inside the power module, washing should be done with brush.

Then, dry up thoroughly after washing.

8. Before Concluding Power Module Damage

Verify following items before concluding power module damage.

(1)No output voltage

 Is specified input voltage applied?

 During output voltage adjustment, is the fixed resistor or variable resistor setting correct?

 Is there no abnormality with the output load?

 Is the actual baseplate temperature within the specified operating temperature of this module?

 Are the ON/OFF control terminals (+ON/OFF, ON/OFF) correctly connected?

(2) Output voltage is high

 Are the remote sensing terminals (+S, S) correctly connected?

 Is the measurement done at the sensing points?

 During output voltage adjustment, is the fixed resistor or variable resistor setting correct?

(3) Output voltage is low

 Is specified input voltage applied?

 Are the remote sensing terminals (+S, S) correctly connected?

 Is the measurement done at the sensing points?

 During output voltage adjustment, is the fixed resistor or variable resistor setting correct?

 Is there no abnormality with the output load?

(4) Load regulation or line regulation is large

 Is specified input voltage applied?

 Are the input or output terminals firmly connected?

 Is the measurement done at the sensing points?

 Are the input and output wires too thin?

(5) Large output ripple

 Is the measurement done according to methods described in the Instruction Manual or is it an equivalent

method?

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TDKLambda

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Warranty period is 5 years.

For damages occurring at normal operation within this warranty period, repair is free of charge.

Following cases are not covered by warranty

(1) Improper usage like dropping products, applying shock and defects from operation exceeding

specification of the unit.

(2) Defects resulting from natural disaster (fire, flood etc.)

(3) Unauthorized modifications or repair by the buyers’ defects not cause by our company.

8. Warranty Period

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