Hitachi KP-FM500WCL, KP-FMD500WCL Operation Manual

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High pixel CMOS camera

KP-FM500WCL KP-FMD500WCL

Operation Manual

Hitachi Kokusai Electric Inc.

The first edition in August, 2018.

RoHS Compliant

These products comply with the requirement of the RoHS (Restriction of the use of Certain Hazardous Substances in Electrical and electronic Equipment) Directive 2002/95/EC.

Thank you for purchase this fine Hitachi Kokusai Electric CMOS camera. Before using the camera, please read this operation manual carefully.

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IMPORTANT SAFETY INSTRUCTIONS

1. Read Instructions

All the safety and operating instructions should be read before the product is operated.

2. Retain Instructions The safety and operating instructions should be retained for future reference.

3. Heed Warnings

All warnings on the product and the operating instructions should be adhered to.

4. Follow Instructions All operating and use instructions should be followed.

5. Cleaning Unplug this product from the wall outlet before cleaning. Do not use liquid cleaners or aerosol cleaners. Use a damp cloth for cleaning.

6. Attachments Do not use attachments not recommended by the product manufacturer as they may cause hazards.

7. Water and Moisture Do not use this product near water - for example, near a bath tub, wash bowl, kitchen sink, or laundry tub; in a wet basement; or near a swimming pool; and the like.

8. Accessories

Do not place this product on an unstable cart, stand, tripod, bracket, or table. The product may fall, causing serious injury to a child or adult, and serious damage to the product. Use only with a cart, stand, tripod, bracket, or table recommended by the manufacturer, or sold with the product. Any mounting of the product should follow the manufacturer's instructions, and should use a mounting accessory recommended by the manufacturer.

9. Moving A product and cart combination should be moved with care. Quick stops, excessive force, and uneven surfaces may cause the product and cart combination to overturn.

10. Ventilation

Slots and openings in the cabinet are provided for ventilation and to ensure reliable operation of the product and to protect it from overheating, and these openings must not be blocked or covered.

The openings should never be blocked by placing the product on a bed, sofa, rug, or other similar surface. This product should not be placed in a built-in installation such as a bookcase or rack unless proper ventilation is provided or the manufacturer's instructions have been adhered to.

11. Power Sources This product should be operated only from the type of power source indicated on the marking label. If you are not sure of the type of power supply to your home, consult your product dealer or local power company. For products intended to operate from battery power, or other sources, refer to the operating instructions.

12. Grounding or Polarization This product is equipped with a three-wire grounding-type plug a plug having a third (grounding) pin. This plug will only fit into a grounding-type power outlet. This is a safety feature. If you are unable to insert the plug into the outlet, contact your electrician to replace your obsolete outlet. Do not defeat the safety purpose of the grounding-type plug.

13. Power-Cord Protection Power-supply cords should be routed to that they are not likely to be walked on or pinched by items placed upon or against them, paying particular attention to cords at plug, convenience receptacles, and the point where they exit from the product.

14. Lightning For added protection for this product during a lightning storm, or when it is left unattended and unused for long periods of time, unplug it from the wall outlet. This will prevent damage to the product due to lightning and power-line surges.

15. Overloading Do not overload wall outlets, extension cords or integral convenience receptacles as this can result in a risk of fire or electric shock.

16. Object and Liquid Entry Never push objects of any kind into this product through openings as they may touch dangerous voltage points or short-out parts that could result in a fire or electric shock. Never spill liquid of any kind on the product.

17. Inflammable and Explosive Substance Avoid using this product where there are gases, and also where there are inflammable and explosive substances in the immediate vicinity.

18. Heavy Shock or Vibration When carrying this product around, do not subject the product to heavy shock or vibration.

19. Servicing

Do not attempt to service this product yourself as opening or removing covers may expose you to dangerous voltage or other hazards. Refer all servicing to qualified service personnel.

20. Damage Requiring Service

Unplug this product from the wall outlet and refer servicing to qualified service personnel under the following conditions:

a. When the power-supply cord or plug is damaged. b. If liquid has been spilled, or objects have fallen into the product. c. If the product has been exposed to rain or water. d. If the product does not operate normally by following the operating instructions. Adjust only those controls that are covered by the operating

instructions as an improper adjustment of other controls may result in damage and will often require extensive work by a qualified technician to

restore the product to its normal operation. e. If the product has been dropped or damaged in any way. f. When the product exhibits a distinct change in performance-this indicates a need for service.

21. Replacement Parts When replacement parts are required, be sure the service technician has used replacement parts specified by the manufacturer or have the same characteristics as the original part. Unauthorized substitutions may result in fire, electric shock, or other hazards.

22. Safety Check Upon completion of any service or repairs to this product, ask the service technician to perform safety checks to determine that the product is in proper operating condition.

23. Wall or Ceiling Mounting

The product should be mounted to a wall or ceiling only as recommended by the manufacturer.

24. Heat The product should be situated away from heat sources such as radiators, heat registers, stoves, or other products (including amplifiers) that produce heat.

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1. Alle Anweisungen lesen

Vor Betrieb des Erzeugnisses sollten alle Sicherheits-und Bedienungsanleitungen gelesen werden.

2. Die Anweisungen aufbewahren Die Sicherheits-und Bedienungsanleitungen sollten fünftigen Bezug aufbewahrt werden.

3. Warnungen beachten Die Warnungen auf dem Erzeugnis und in den Bedienungsanleitungen solten beachtet werden.

4. Anweisungen befolgen Alle Bedienungsanleitung-und Verwendungsanweisungen sollten befolgt werden.

5. Reinigung Den Stecker des Geräts vor Reinigung aus der Steckdose ziehen. Keine flüssigen Reinigungsmittel oder Aerosolreiniger verwenden. Zum Reinigen einen feuchten Lappen verwenden.

6. Zubehör Nur vom-Hersteller des Erzeugnisses empfohlenes Zubehör verwenden, da es sonst zu Störungen kommen kann.

7. Wasser und Feuchtigkeit Dieses Erzeugnis nicht in der Nähe von Wasser verwenden - z.B, in der Nähe einer Badewanne, eines Waschbeckens, einer Küchenspüle, eines Waschzubers, in einem nassen Keller, in der Nähe eines Schwimmbeckens usw.

8. Aufstellung Das Erzeugnis nicht auf einen unstabilen Wagen, Stand, Dreifuß, Träger oder Tisch stellen.Das Erzeugnis kann sonst herunterfallen und ein kind oder einen Erwachsenen schwer verietzen.Außerdem kann das Gerät schwer beschädigt werden. Nur mit einem Wagen, Stand, Dreifuß, Träger oder Tisch verwenden, der vom Hersteller empfohlen oder mit dem Erzeugnis verkauft worden ist. Für jegliche Anbringung sollten die Anweisungen des Herstellers befolgt werden, und das vom Hersteller empfohlene Anbringungszubehör sollte verwendet werden.

9. Eine Kombination von Erzeugnis und Wagen sollte vorsichtig bewegt werden Schneller Halt, übermäßige Krafteinwirkung und unebene Oberflächen können Umkippen der kombination von Erzeugnis und Wagen verursachen.

10. Ventilation Schlitze und Öffnungen im Gehäuse dienen der Ventilation. Sie sind für zuverlässigen Betrieb des Gerätes und Schutz vor Überhitzung erforderlich und dürfen nicht blockiert oder abgedeckt werden. Die Öffnungen sollten niemals dadurch blockiert werden, daß, das Gerät auf ein Bett, ein Sofa, einen Teppich oder eine ähnliche Oberfläche gestellt wird.

Das Gerät sollte nur dann in Einbauinstallierung wie in einem Bücherschrank oder einem Gestell verwendet werden, wenn angemessene Ventilation vorgesehen ist bzw. Die Anweisungen des Herstellers befolgt worden sind.

11. Stromversorgung Dieses Erzeugnis sollte nur an der auf dem Typenschild angegebenen Stromversorgungsart betrieben werden. Wenn Sie nicht sicher sind, was für eine Stromversorgung Sie haben, so wenden Sie sich bitte an Ihren Erzeugnishändler oder an das lokale Elektrizitätswerk. Beziehen Sie sich für Batteriebetrieb oder andere Stromquellen vorgesehene Erzeugnisse bitte auf die Bedienungsanleitungen.

12. Erdung oder Polarisierung Dieses Erzeugnis ist mit einem Schutzkontaktstecker mit drei Leitern ausgerüstet, mit einem Erdungskontakt. Dieser Stecker paßt nur in ein schuko-Steckdose. Dies ist eine Sicherheitsmaßnahme. Wenn Sie den Stecker nicht in die Steckdose stecken können, so wenden Sie sich bitte an ihren Elektriker, damit er die veraltete Schuts des Schutzkontaktsteckers unwirksam.

13. Netzkabelschutz Netzkabel sollten so verlegt werden, deß möglichst nicht darauf getreten wird und daß sie nicht eingeklemmt werden, mit besonderer Beachtung der kabel an Stackern, Verlängerungskabeln und dem Austritt des Kabels aus dem Erzeugnis.

14. Blitzschlag Für zusätzlichen Schutz des Erzeugnisses während eines Gewitters oder bei Nichtverwendung für lange Zeit den Stecker aus der Steckdose ziehen. Dies verhütet Beschädigung durch Blitzschlag und Netzspannungsstöße.

15. Überlastung Wandsteckdosen, Verlängerungskabel und eingebaute Bequemlickkeitssteckdosen nicht überlasten, da dies Feuer oder elektrischen Schlag verursachen kann.

16. Eindringen von Fremdkörpern und Flüssigkeit Niemals Objekte irgendwelcher Art durch die Öffnungen in das Gerät schieben, da diese unter hoher Spannung stehende Teile berühren oder kurzschließen können, wodurch es zu Feuer oder elektrischem Schlag kommen kann. Niemals Flüssigkeiten irgendwelcher Art auf das Erzeugnis verschütten.

17. Entflammbare und explosive Substanzen

Vermeiden Sie Verwendung dieses Erzeugnisses an Orten mit Gasen bzw. entflammbaren oder explosiven Substanzen in der direkten Umgebung.

18. Starke stöße oder Vibrationen Setzen Sie das Erzeugnis beim Transport nicht starken Stößen oder Vibrationen aus.

19. Wartung Versuchen Sie nicht, dieses Erzeugnis Selbst zu warten, da Sie sich durch Öffnen bzw. Entfernen von Abdeckungen hohen Spannungen und sonstigen Gefährdungen ausserzen können. Beziehen Sie sich für jegliche Wartung auf qualifiziertes Wartungspersonal.

20. Beschädigung, die Wartung erfordert Ziehen Sie den Stecker dieses Erzeugnisses aus der Steckdose und wenden Sie sich an qualifiziertes Wartungspersonal, wenn eine der folgenden Bedingungen vorliegt: a. Wenn das Netzkabel oder der Stecker beschädigt ist. b. Bei Eindringen von Flüssigkeit oder Fremdkörpern in das Gerät. c. Wenn das Erzeugnis Regen oder Wasser ausgesetzt worden ist. d. Wenn das Erzeugnis bei Befolgen der Bedienungsanleitungen nicht normal funktioniert.Nur die Regelelemente verstellen, die in den

Bedienungsanleitungen behandelt werden, da unangemessene Einstellung anderer Regelelemente Beschädigung verursachen kann und oft

beträchtliche Arbeit durch einen qualifizierten Techniker erfordert, um das Erzeugnis wieder, zu normalem Betrieb zurückzubringen. e. Wenn das Erzeugnis fallen gelassen oder beschädigt worden ist. f. Wenn das Erzeugnis eine klare Änderung in der Leistung zeigt-dies weist darauf hin, daß Wartung erforderlich ist.

21. Ersatzteile Wenn Ersatzteile erforderlich sind, darauf achten, daß der Wartungstechniker nur die vom Hersteller festgelegten Ersatzteile oder Teile mit den gleichen Charakteristiken wie die ursprünglichen Teile verwendet. Unautorisierte Ersatzteile können Feuer, elektrischen Schlag oder sonstige Gefährdungen verursachen.

22. Sicherheitsprüfung Bitten Sie den Wartungstechniker nach der Vollendung von Wartung oder Reparaturarbeiten an diesem Erzeugnis um die Durchführung von Sicherheitsprüfungen, um zu bestimmen, daß das Erzeugnis im angemissenen Betriebszustand ist.

23. Anbringung an der Wand oder an der Decke Das Erzeugnis sollte nur entsprechend den Empfehlungen des Herstellers an einer Wand oder an der Decke angebracht werden.

24. Wärme Das Erzeugnis sollte fern von Wärmequellen wie Radiatoren, Heizwiderständen, Öfen und anderen Wärme erzeugenden Erzeugnissen (einschließlich Verstärkern) aufgestellt werden.

WICHTIGE SICHERHEITSANWEISUNGEN

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MISES EN GARDE IMPORTANTES

1. Lire les instructions

Lire toutes les instructions de sécurité et de fonctionnement avant de faire fonctionner l’appareil.

2. Conserver ces instructions

Conserver les instructions de sécurité et de fonctionnement á des fins de référence ultérieure.

3. Tenir compte des avertissements

Tous les avertissements qui figurent sur l’appareil et dans le mode d’emploi devront être respectés.

4. Observer les instructions

Observer toutes les instructions de fonctionnement et d’utilisation.

5. Nettoyage Avant de procéder au nettoyage, débrancher l’appareil de la prise secteur. Ne pas utiliser de produits de nettoyage liquides ou en aérosol.

Nettoyer l’appareil avec un chiffon humide.

6. Fixations

Ne pas utiliser de fixations non recommandées par le fabricant de l’appareil car elles pourraient être source de danger.

7. Eau et humidité

Ne pas utiliser l’appareil á proximité d’eau-ar exemple prés d’une baignoire, d’un lavabo, d’un évier ou d’un bac á lessive, dans un sous-sol humide, ou prés d’une piscine, etc.

8. Accessoires Ne pas placer l’appareil sur un chariot, un socle, un pied, un support ou one table instables L’appareil pourrait tomber, blessant griévement des enfants ou des adultes, et étant sérieusement endommagé. Utiliser exclusivement le chariot, le socle, le pied, le support ou la table recommandés par le fabricant, ou vendus avec l’appareil. Pour tout montage de l’appareil, respecter les instructions du fabricant, et utiliser á cette fin l’accessoire de montage recommandé par le fabricant.

9. L’appareil monté sur son chariot devra être déplacé avec précaution Des arrêts brusques, une force excessive et des surfaces irréguliéres pourraient provoquer le renversement de l’ensemble appareil-chariot.

10. Ventilation Les fentes et les ouvertures du coffret sont prévues pour la ventilation ainsi que pour garantir un fonctionnement en toute sécurité de l’appareil et le protéger de toute surchauffe, et ces ouvertures ne devront donc être ni obstruées ni recouvertes. Ne jamais obstruer les ouvertures en placant l’apparei sur un lit, un sofa, un tapis ou toute surface similaire. Ne jamais placer l’appareil dans un support confiné, par exemple une bibliothéque ou une é tagé re, sans ventilation suffisante ou sans repecter les instructions du fabricant.

11. Sources d’allmentation L’appareil devra être alimenté exclusivement sur le type d’alimentation indiqué sur l’étiquette signalétique. Sil’on n’est pas sûr du type d’alimentatio du local, consulter le revendeur de l’appareil ou la compagnie d’électricité locale. Pour les appareils qui fonctionnent sur batterie ou sur d’autres sources, voir le mode d’emploi.

12. Mise á la terre ou polarisation L’appareil est doté d’une fiche trifilaire avec mise á la terre, dont la troisiéme broche assure la mise á la terre. Cette fiche ne rentrera que dans les prises trifilaires de mise á la terre. Ceci est une mesure de sécurité. Si la fiche ne rentre pas dans la prise, faire remplacer la prise désuéte par un électricien. Ne pas rendre vaine la measure de sécurité assurée par cette prise avec mise á la terre.

13. Protection du cordon d’alimentation Acheminer les cordons d’alimentation de facon qu’on ne risque pas de marcher dessus ou de les coincer sous un objet placé dessus ou contre eux. Faire particuliérement attention aux fiches des cordons, á la proximité des prises, et á l’endroit oú ils ressortent de l’appareil.

14. Foudre Pour renforcer la protection de l’appareil pendant un orage, ou si l’on s’en éloigne ou qu’on reste longtemps sans l’utiliser, le débrancher de la source d’alimentation. Ceci permettra d’éviter tout dommage de l’appareil dú á la foudre et aux surtensions de ligne.

15. Surcharge Ne pas surcharger les prises, rallonges et prises multiples car cela pourrait entraîner un risque de feu ou de choc électrique.

16. Pénétration d’objets et de liquides Ne jamais enfoncer d’objets d’aucune sorte dans les ouvertures de l’appareil car ils pourraient toucher des points de tension dangereuse ou court-circuiter des piéces, ce qui pourrait provoquer un feu ou un choc électrique. Ne jamais renverser de liquide d’aucune sorte sur l’appareil.

17. Substances inflammabes et explosives Eviter d’utiliser l’appareil en présence de gaz, ainsi qu’á proximité immédiate de substances inflammables et explosives.

18. Chocs ou vibrations violents Lorsqu’on transporte l’appareil, ne pas le soumettre á des chocs ou des vibrations violents.

19. Réparations Ne pas tenter de réparer l’aapareil soi-même car le fait d’ouvrir ou de retirer les caches risque d’exposer l’utilisateur á des tensions dangereuses notamment. Confier toute réparation á un personnel qualifié.

20. Dommages nécessitant réparations Débrancher l’appareil de la source d’alimentation et confier les réparations á un personnel qualifié dans les cas suivants: a. Lorsque le cordon d’alimentation ou sa fiche sont endommagés b. Si du liquide s’est renversé sur l’appareil ou que des objets sont tombés dedans c. Si l’appareil a été exposé á la pluie ou á l’eau. d. Si l’appareil ne fonctionne pas normalement lorsqu’on observe les instructions d’utilisation.

Ne régler que les commandes couvertes par le mode d’emploi ; en effet, un réglage incorrect des autres commandes pourrait entrainer des

dommages et nécessiteront souvent des travaux de réparation coûteux par un technicien qualifié pour remettre l’appareil en état de marche. e. Si l’appareil est tombé ou qu’il a été endommagé. f. Si l’appareil affiche une nette modification de ses performances, cela signifie qu’il a besoin d’être réparé.

21. Piéces de rechange Si l’on a besoin de piéces de rechange, veiller á ce que le technicien de réparation utilise exclusivement les piéces de rechange spécifiées par le fabricant ou des piéces ayant les mêmes caractéristiques que les piéces d’origine. Les piéces de rechange non autorisées risquent de provoquer un feu, un choc électrique et autres dangers.

22. Vérificaton de sécurité Aprés tout travail d’entretien ou de réparation de l’appareil, demander au technicien de réparation d’effectuer les vérifications de sécurité pour s’assurer que l’appareil est en bon état de marche.

23.Montage au mur ou au plafond L’appareil ne pourra être monté au mur ou au plafond que de la maniére recommandée par le fabricant.

24. Chaleur Eloigner l’appareil des sources de chaleur, telles que radiateurs, appareils de chauffage, cuisiniéres, et de tour produit engendrant de la chaleur (y compris les amplificateurs).

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The following statement is related to the regulation on “ Measures for the Administration of the control of Pollution by Electronic Information Products “ , known as “ China RoHS “. The table shows contained Hazardous Substances in this camera.

说明书（环境方面：补充资料）

对象产品：CMOS 摄像机

１．电子产品污染控制标志

此标志是根据 2006年 2月 28日公布的《电子信息产品污染控制管理办法》以及 SJ/T11364-2006 《电子信息产品污染控制标识要求》而制定的，是用来表示适用于在中华人民共和国流通的电子信息产品的环保使用期限。只要遵守此类产品的安全事项以及使用上应注意的问题，从制造日起到此年限内，不会发生产品中的有害物质外泄、突变等，不会对环境、人体以及财产产生严重影响。同时，此年限是除去必须定期交换的保守部品的，是其他产品的环保使用期限。

产品在正常情况下使用完毕要废弃时，请遵守各地区对电子信息产品的回收・再利用的相关各项法律、法规。另外，从第三者处转买的情况下即使在本期限内也视为失去效力。

２．产品中有毒有害物质或元素的名称及含量

部件名称

有毒有害物质或元素

铅

(Pb)

水银

(Hg)

镉

(Cd)

六价铬

(Cr(VI))

多溴联苯

(PBB)

多溴二苯醚

(PBDE)

１主机 × ○ ○ ○ ○ ○ ○：表示该有毒有害物质在该部件所有均质材料中的含量均在 SJ/T11363-2006 标准规定的限量要求以下。 ×：表示该有毒有害物质至少在该部件的某一均材料中的含量超出 SJ/T11363-2006 标准规定的限量要求。

IMPORTANT NOTICE

China RoHS

These products have been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this product in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. WARNING Changes or modifications not expressly approved by Hitachi Kokusai responsible for compliance could void the user’s authority to operate the equipment.

This product does not exceed the class A/class B limits for radio noise emissions from digital apparatus as set out in the radio interference regulations. Le présent appareil n’émet pas de bruits radioélectriques dépassant les limités applicable aux appareils numériques de classe A prescrites dans le rVglement sur le brouillage radioélectrique édicter par le ministére des communications du canada.

For U.S.A.

For Canada

Page 6

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Operating considerations Notes to users

1. Important safety notes

・ Use this camera with a 12VDC (11VDC to 13VDC) power supply. Time will be needed for about four seconds by the time the

camera works normally after turning on the power supply.

・ Observe that flammable objects, water or metal do not enter the camera interior. These may lead to failure or accident. ・ Do not modify the camera or use the camera with external covers removed. These may cause failure, void any warranties and

pose a safety hazard.

・ Stop using the camera at the approach of electrical storm (thunder audible). Protect the camera from rain if using it outdoors. ・ In event the camera shows any abnormality, switch off the camera and disconnect the power cord. Contract a Hitachi Kokusai

Electric service representative.

・ Do not touch the optical filter on the front of the sensor. The image deteriorates due to dirt, scratches, etc. ・ When using a heavy lens such as a zoom lens or when heavy vibration or shock is applied, fix the lens to the device.

2. Handling

・ Do not attempt to remove cover. ・ When installing or removing a lens, be sure to use care that water or dust dose not enter the inside of the camera. ・ Please do installation work of lens at a clean place to prevent dust adhesion. ・ When installing the lens, please handle carefully so as not to incline. Also, in the screw part of the lens mount, please use those

with no foreign matter adhesion, scratches or garbage etc.

3. Installing and storage

Avoid installing or storing the camera in the following environments.

・ Environments exposed to direct sunlight, rain or snow. ・ Environments where combustible or corrosive gas exists. ・ Excessively warm or cold environment (Operating ambient temperature: -10 to 50℃). ・ Humid or dusty environment. ・ Place subjected to excessive vibration or shock. ・ Environment exposed to strong electric or magnetic field. ・ Do not aim the camera lens at the sun. ・ Do not shoot strong light. ・ When such a scene is shot, vertical trailing will appear. However, this is not due to failure. In case strong light enters camera

through the lens, partial deterioration in picture quality will result.

4. To obtain stable performance for long time

When the camera is used continuously for long time under high ambient temperature, the inside electrical parts become

deteriorated, resulting in shortening its life. To use the camera continuously for long time, the highest temperature must be below

40℃.

5. Connectors

Confirm the power is off before connecting or disconnecting a signal cable. Grasp connectors by the body, not the attached wires.

6. Cleaning

・ Use a blower or a lens brush to remove dusts on the lens or the optical filter. ・ Wipe dirts on the case off with dry soft cloth. If dirts are hardened, wipe them off with cloth moistened with neutral detergent liquid;

wipe the cover with dry cloth. Please remove dusts it so as not to scratch lens or optical filter.

・ Do not use benzene, thinner, alcohol, liquid cleaner or spray-type cleaner. ・ In event dust or other debris is lodged between the CMOS and optical filter, consult dealer for cleaning by an optical technician. ・ Even when you do not use this camera, please attach a lens or seal to protect the optical filter from dust and scratches.

7. Phenomena inherent to CMOS imaging device

The following phenomena are inherent to a CMOS device and do not indicate malfunction.

1) Fixed pattern noise

High ambient temperature or high camera sensitivity can cause fixed pattern noise to appear throughout the scene.

2) Moire

Interaction between patterns can produce an additional "phantom" pattern to appear. The CMOS picture elements (pixels) are arranged in a pattern, which can interact with a pattern in the scene (e.g., a performer wearing a finely striped necktie) to result in a Moire pattern. The effect should be considered when selecting costumes, props and other scene elements.

3) Ghosting Strong direct or reflected light near an object of interest can cause ghosting of the object to appear in the picture. The effect is

more obtrusive with certain iris settings and lens types. Select the scene layout and camera pointing direction carefully in order to avoid this effect.

）

Defective pixels

Imperceptible white spots may rarely come up on the screen due to cosmic rays and so on. It becomes easy to appear when the sensitivity of the camera is raised or in the operation at the high temperature.

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5）Monochrome reversing

When taking picture of personally strong light, the part where white is saturated might become CMOS element with a black image. Please adjust quantities of light at such time.

6）Horizontal pull phenomenon of image

Subject might became bright when there is strong light (strong reflection of the light, the fluorescent lamp, and sunlight etc.) next to subject. It becomes easy to see by raising the camera sensitivity.

7）Horizontal line noise when electronic shutter is used

Depending on the exposure time setting, horizontal line noise may appear.

The higher a camera sensitivity is, the easier it is to see it.

8. Attention about laser light Laser light may do damage to CMOS image sensor. When you use laser light, be careful not to irradiate it on the CMOS image

sensor surface. The CMOS image sensor breakage by laser light irradiation is out of warranty. (The repair is not free of charge.)

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Table of Contents

1. Overview ······················································································································ 1

2. Standard Composition ····································································································· 1

3. Features ······················································································································· 1

4. System example ············································································································ 2

5. Section name and functions ····························································································· 2

6. Camera mounting ··········································································································· 3

7. Lens ···························································································································· 3

8. Optical filter ··················································································································· 3

9. Connector ····················································································································· 4

10. Functions and operations ································································································ 6

11. Remote control ·············································································································· 9

12. Command list ··············································································································· 16

13. Camera Link output timing chart ······················································································· 19

14. Trigger operation and timing chart ···················································································· 34

15. Input / Output signal ······································································································ 38

16. Spectral response ········································································································· 39

17. Specifications ··············································································································· 40

18. Dimensions ·················································································································· 41

Page 10

Overview

KP-FM500WCL are Camera Link output type black and white camera which utilized the 2/3 –inch progressive scan

CMOS image sensor with square pixel. KP-FMD500WCL are RAW data output type.

The high resolution image of five million pixels is output in no interlace by 163 frames per second.

Because square pixel CMOS is adopted, the image that is appropriate for the picture processing is obtained.

Standard composition

Check when unpacking

Camera ······························································ 1 Written guarantee ················································· 1

*If you do not use the specified optional item, malfunction may occur.

Features

High resolution

The 2/3-inch five million pixels square lattices CMOS achieve a high resolution.

Global shutter

The clear image is obtained even by subject with a fast movement by CMOS sensor adoption of the global shutter type.

Frame on demand

It is possible to import images according to arbitrary timing by the input of the trigger signal.

Change of frame rate

The frame rate can be changed by setting the camera link configuration and the camera link clock frequency. A further frame rate can improve if partial scan and binning function is used.

Small and lightweight

The small SDR connector for digital output allows the camera size and mass to be drastically reduced to

44(W) x 44(H) x 41(D) mm / approx. 130g.

Automatic power supply change

The power supply through the Camera Link cable is possible from the PoCL frame grabber board. Because the power supply from the DCIN/SYNC connector is also possible, it is possible to make the camera work by using usual frame grabber board. The power supply from the DCIN/SYNC connector is given to priority when the power supply is supplied from both.

Optional accessories

(1) 12 pin plug HR10A-10P-12S (2) Junction box JU-F30/JC-100 (3) Tripod adaptor TA-FM200 (4) Mini-Camera Link cable

(5) Camera cable

Molded type

Shield type

2m C-201KSM

C-

201KSS

5m C-501KSM

C-

501KSS

10m C-102KSM

C-

102KSS

In the CE Marking or KCC region, use the shied type and install clamp filter (ZCAT 2035-0930A: TDK) at both ends (camera and video processor ends).

Page 11

System example

KP-FM500WCL and KP-FMD500WCL connect to frame grabber board using Camera Link cable.

*In the CE Marking or KCC region, use the shied type and install clamp filter (ZCAT 2035-0930A: TDK) at both ends (camera and video processor ends).

Section name and functions

Camera / Tripod adaptor

mounting screw holes

Lens mount

（

C mount

）

DC IN/SYNC 12pin connector

Use for DC+12V power and external trigger input. When the board supplies the power supply by way of the Camera Link connector, the connection is unnecessary.

Camera / Tripod adaptor

mounting screw holes

Camera / Tripod adaptor

mounting screw holes

Camera

Link connectors

Use for digital video output and camera control signal input/output signal. The power supply from the board is also possible.

AC adaptor

Power over type Camera Link

frame grabber board

Camera Link

frame grabber board

Power over type

Mini-Camera Link cable

(x2 when Medium/Full/Deca configuration)

Mini-Camera Link cable

(x2 when Medium/Full/Deca configuration)

HITACHI

Page 12

①

②

④

③

Camera mounting

Attached optional accessory the tripod adaptor "TA-FM200", mount the camera to a tripod or mounting bracket.

Lens

Optical filter

How to remove the optical filter. (1) Remove two screws ① and filter holder ② will come off. (2) Remove the optical filter ③ from filter frame ④. (3) Then, reinstall and secure filter holder ② with two screws ①. Note: Prior to removing the optical filter, be sure to turn off the power. Since garbage etc. invades into image reception surface camera, please work under the clean air, such as a CLEAN ROOM.

CAUTION

Observe the dimensions of the lens mounting selection as illustrated at the right. If the dimensions are not observed, do not use such a lens, because the lens and the camera will be damaged.

Screw type: Ｕ1/4-20 Length Ｌ = 4 to 5.5mm Screws longer than 5.5 mm can cause internal damage, while less than 4 mm prevents secure fastening and risks dropping to cause damage and injury.

Lens flange

Lens optics

Max 9mm

Page 13

Connector

1. Camera Link connector

D.OUT1 (Connector 1)

Pin No. Signal Pin No. Signal

+12V (PoCL)

14 GND

GND (non-PoCL) 2 TXOUT 0 (－) 15 TXOUT 0 (＋) 3 TXOUT 1 (－) 16 TXOUT 1 (＋) 4 TXOUT 2 (－) 17 TXOUT 2 (＋) 5 TXCLKOUT (－) 18 TXCLKOUT (＋) 6 TXOUT 3 (－) 19 TXOUT 3 (＋) 7 RX (＋) [ SERTC (＋) ] 20 RX (－) [ SERTC (－) ] 8 TX (－) [ SERTFG (－) ] 21 TX (＋) [ SERTFG (＋) ] 9 TRIG(－) [ CC1 (－) ] 22 TRIG (＋) [ CC1 (＋) ]

10 N.U. [ CC2 (＋) ] 23 N.U. [ CC2 (－) ] 11 N.U. [ CC3 (－) ] 24 N.U. [ CC3 (＋) ] 12 N.U. [ CC4 (＋) ] 25 N.U. [ CC4 (－) ]

13 GND 26

+12V (PoCL) GND (non-PoCL)

D.OUT2 (Connector 2: used for Medium/Full/Deca Configuration)

Pin No. Signal Pin No. Signal

+12V (PoCL)

14 GND

GND (non-PoCL) 2 TYOUT 0 (－) 15 TYOUT 0 (＋) 3 TYOUT 1 (－) 16 TYOUT 1 (＋) 4 TYOUT 2 (－) 17 TYOUT 2 (＋) 5 TYCLKOUT (－) 18 TYCLKOUT (＋) 6 TYOUT 3 (－) 19 TYOUT 3 (＋) 7 100Ω(＋) 20 100Ω(－) 8 TZOUT 0 (－) 21 TZOUT 0 (＋) 9 TZOUT 1 (－) 22 TZOUT 1 (＋)

10 TZOUT 2 (－) 23 TZOUT 2 (＋) 11 TZCLKOUT (－) 24 TZCLKOUT (＋) 12 TZOUT 3 (－) 25 TZOUT 3 (＋)

13 GND 26

+12V (PoCL) GND (non-PoCL)

SDR connector (3M) or equivalent N.U.: Not Used

- The digital out cable should be comprised of a twisted pair of wires having 100Ω characteristic impedance and an outer heath shield type conductor.

- Connect the shield (ground) of the digital out cable to the ground terminal of the video equipment, frame grabber, etc.

- TX: Transmit data from camera to machine

- RX: Transmit data from machine to camera

(Note) Please do not unplug and insert cable (digital out cable) with a power supplied to a camera.

(Note) In the CE Marking or KCC region, use the shield type and install clamp filter

（ZCAT2035-0930A: TDK） at both ends of the cable.

Page 14

2. DCIN/SYNC connector PIN NO. Signal PIN NO. Signal

1 GND 7 Trigger INPUT 2

N.U. (PoCL)

8 GND

+12V (non-PoCL) 3 GND 9 N.U. 4 N.U. 10 FLASH OUT / VD OUT 5 GND 11 N.U. 6 N.U. 12 GND

N.U.: Not Used

Connector (camera side) : SNH-10-12(RPCB) SAMWOO or equivalent

Plug (matching cable plug) : HR10A-10P-12S HIROSE or equivalent

(Note) Please do not unplug and insert cable (digital out cable) with a power supplied to a camera.

(Note) In the CE Marking or KCC region, use the shield type and install clamp filter

（ZCAT2035-0930A: TDK） at both ends of the cable.

Page 15

Functions and operations

Various mode setup and adjustment of KP-FM500WCL and KP-FMD500WCL are performed by the remote control via Camera Link. Operation and adjustment way of function utilized are described below. See "Remote control" and "Command list" (page 9 to 18) about communication method of each command.

1. Main functions

(1) TRIGGER : Setting about external trigger

①

MODE : Select of mode

OFF (Factory setting） : Trigger mode set to OFF (normal mode). FIXED SHUTTER : Trigger mode set to Fixed shutter. ONE TRIGGER : Trigger mode set to One trigger.

②

POLARITY : Select of trigger polarity POSITIVE (Factory setting) : Input polarity HIGH is made into trigger signal. NEGATIVE : Input polarity LOW is made into trigger signal.

③

SOURCE : Select of trigger source CL-CC1 (Factory setting) : Input trigger signal from Camera Link signal CC1 (see page 4 "Connector"). 12pin : Input trigger signal from 7 pin of 12 pin DCIN/SYNC connector.

(see page 5 "Connector").

*Please refer to "Trigger operation and timing chart" from 34 page to 37 page for details concerning

an external trigger mode.

(2) SHUTTER : Setting of electronic shutter

①

PRESET: Setting speed of PRESET shutter.

OFF (Factory setting) : Shutter operation set to OFF (NORMAL shutter).

1/60, 1/100, 1/250, 1/500, 1/1000, 1/2000, 1/10000, 1/50000 second : Electronic shutter set to preset shutter speed (PRESET shutter). VARIABLE : Electronic shutter set to variable shutter speed (VARIABLE shutter).

②

VARIABLE VALUE- : Setting speed of VARIABLE shutter.

20μs to 655370μs : Electronic shutter can be set in the range of 20μs to 655370μs

in 65535 steps. (Factory setting: 30110μs)

In 1 step, it is variable for 10us.

(3)

BINNING

: Setting of off between vertical lines

OFF (Factory setting) : The magnification of the off reading between vertical lines is OFF.

ON : The magnification of the off reading between vertical lines is set. *This function is only KP-FM500WCL.

(4) DATA BIT : Setting of output bit depth

8bit (Factory setting) : Image is outputted by 8 bit.

10bit : Image is outputted by 10 bit. (Except Deca Configuration (10TAP))

12bit : Image is outputted by 12 bit. (Only Base/Medium Configuration can be set)

Page 16

(5) CONFIG ： Setting of Camera Link configuration

BASE（Factory setting） : Camera Link configuration is set to Base configuration. MEDIUM : Camera Link configuration is set to Medium configuration.

FULL : Camera Link configuration is set to Full configuration. DECA : Camera Link configuration is set to Deca(10TAP) configuration. *Compared to Base/Medium/Full Configuration, the level of the video signal

to be output is quadrupled.

(6) CLK ： Setting of Camera Link clock frequency

85MHz（Factory setting） : Camera Link clock frequency set to 85MHz.

60MHz : Camera Link clock frequency set to 60MHz.

(7) FLIP ： Setting of upper and lower, right and left reversing output

OFF（Factory setting） : Image is usually output. H : Image is reversed right and left. V : Image is reversed up and down. HV : Image is reversed right and left, up and down.

(8) TEST PATTERN ： Setting of test pattern output

OFF（Factory setting） : Image is usually output. H : The horizontal ramp image is output. V : The vertical ramp image is output. HV : The horizontal and vertical ramp image is output.

(9) OUTPUT SIGNAL ： Setting of the tenth pin of DCIN/SYNC connector

OFF（Factory setting） : No output（LOW） FLASH : The flash pulse (strobe) is output. VD : The VD pulse of the camera is output.

(10) GAIN ： Adjustment of digital gain

0dB（0/180）～18dB(180/180) :Set 0 to 18dB in steps of 0.1dB. (Factory setting : 0dB(0/180))

(11) R-GAIN ： Adjustment of Red gain

-6.021dB（0/255））～5.974dB(255/255) :Adjust Red gain in 256 steps. (Factory setting : 0dB(128/255)) *This function is only KP-FMD500WCL.

(12) B-GAIN ： Adjustment of Blue gain

-6.021dB（0/255））～5.974dB(255/255) :Adjust Blue gain in 256 steps. (Factory setting : 0dB(128/255)) *This function is only KP-FMD500WCL.

Page 17

(13) BLACK LEVEL ： Adjustment of offset level

0/255（Factory setting）～ 127/255 : Offset level is set by 128 steps.（Factory setting : 0/255）

(14) PARTIAL SCAN ： Setting of partial scanning

①

MODE : Setting of partial scan

OFF（Factory setting） : partial scanning is OFF. ON : partial scanning is set.

②

START : Set capture start position.

1（Factory setting）～ 2045 line :Please set the acquisition start position as increments of 4 lines.

③

WIDTH : Set capture width.

4 ～ 2048（Factory setting） line : Please set the acquisition width as increments of 4 lines.

[Note] Don’t operate normally when it is not increments of 4 lines.

(15)

TEMPERATURE ：

Acquire the temperature

-READ- : Acquire the temperature detected by the temperature sensor.

(16) NOISE CANCEL ： Setting of noise cancel

0（Factory setting）～ 255 : Adjust trigger noise cancellation threshold in 256 steps. (Factory setting : 0) In 1 step, it is variable for 20ns. *A pulse with a width shorter than the set threshold is regarded as noise,

and the trigger operation is not performed.

(17) FACTORY SETTING

SET : Return to the factory settings.

Page 18

Remote control

1. Comms* specifications

・Control system : Start-stop synchronization system ・Transmission rate : 115200 bps ・Data length : 8 bit ・Star bit : 1 bit ・Stop bit : 1 bit ・Parity : None ・Bit transfer : LSB first

*Comms: Communications

2. Comms control The remote control software controls all communications. Data send/receive (BSC handshake) is by transferring TEXT data to the camera controller chip.

3. Comms procedure

The following pages indicate the camera controller chip and remote control software data protocol. In the description, the camera is designated as slave and the software as master.

･Receive protect timer (time out error) The receive protect timer for master and slave processes is 1 second. For example, if 1 block of TEXT data is being

received, if the data interval exceeds 1 second, error is produced and the data are lost. An acknowledgment of data receipt is not produced.

Page 19

(1) Transmission from master (normal process)

① Session starts when ENQ is sent from master to slave. ② Slave acknowledges by returning ACK to master. ③ Master sends data to slave. ④ Slave acknowledges receipt of data by again returning ACK to master and end the handshake.

(2） Master reads data (normal process)

① Session starts when ENQ is sent from master to slave. ② Slave acknowledges by returning ACK to master. ③ Master sends read command to slave. ④ Slave receives read command, then acknowledges by returning ACK code to master. ⑤ Slave sends read data to master. ⑥ Master receives read data, then acknowledges by returning ACK code to slave.

Slave

(KP-FM500WCL

KP-FMD500WCL)

Master (Machine)

ENQ code (05h）

CK code (06h

)

CK code (06h

)

Transmit data (ASCII code)

HITACHI

Master (Machine

)

NQ code (05h

)

CK code (06h

)

Read command (ASCII code)

ACK code (06h)

Read data (ASCII code)

ACK code (06h)

Slave

(KP-FM500WCL

KP-FMD500WCL)

HITACHI

Page 20

(3） Data transmitted by master (control abort process)

① Master sends ENQ code to slave. ② Since ACK code cannot be sent, slave sent NACK code to master. ③ Sequence is repeated 3 times in attempts to retransmit.

After receiving the 3rd successive NACK code, communications control is aborted

(4） Data transmitted by master (data error process)

① Session starts when ENQ is sent from master to slave. ② Slave acknowledges by returning ACK to master. ③ Master sends data, but slave detect error (framing, over-run error). ④ Slave detects error and does not accept data. ⑤ Sequence 3 and 4 repeats, then master transfers normal data. ⑥ Slave detects normal data and returns ACK code to master to end the session.

Master (Machine)

NQ code (05h

)

NACK code (15

NQ code (05h

)

NACK code (15h

)

ENQ code (05h

)

NACK

code (15h

)

ENQ code (05h

)

NACK code (15h

)

Slave

(KP-FM500WCL

KP-FMD500WCL)

HITACHI

Master (Machine)

NQ code (05h

)

CK code (06h

)

Send data (error occurs)

Send data (data normal)

ACK

code (06h

)

3 second

elapse

3 second

elapse

Slave

(KP-FM500WCL

KP-FMD500WCL)

HITACHI

Page 21

(5） Data frame error (Master transmission)

① Session starts when ENQ is sent from master to slave. ② Slave acknowledges by returning ACK to master. ③ Master sends data. ④ For some reason, slave does not receive data. ⑤ Master does not receive acknowledgment to the send code and repeats the sequence every 3

seconds for 3 times.

⑥ If unsuccessful after 3 attempts, master aborts the sequence and ends communication.

Master (Machine)

NQ code (05h

)

CK code

(06h)

Send data (ASCII code)

3 second

elapse

3 second

elapse

3 second

elapse

Slave

(KP-FM500WCL

KP-FMD500WCL)

HITACHI

Page 22

(6） Transmission frame error (Master receive)

① Session starts when ENQ is sent from master to slave. ② Slave acknowledges by returning ACK to master. ③ Master sends read command. ④ Slave returns ACK code to acknowledge read command. ⑤ Slave sends read data to master. ⑥ For some reason, master fails to receive read data. ⑦ Slave fails to receive acknowledgment of read data and attempts to resend every 3 seconds for 3

times.

⑧ After the third failure, slave aborts the sequence and ends communication.

Master (Machine)

NQ code (05h

)

CK code (06h

)

Read data (ASCII code)

Read command (ASCII code)

CK code (06h

)

3 second

elapse

3 second

elapse

3 second

elapse

Slave

(KP-FM500WCL

KP-FMD500WCL)

HITACHI

Page 23

4. Comms command data format

(1) Send data and read command (master to slave) (a) Command data are converted into ASCII code and transmitted. (b) Comms byte quantity is 18. (c) Comms data format (transmission sequence).

・STX (start code) : Code indicating start of text.

1 byte (02h) ・Text data : Transmit / receive data. 14 byte (ASCII code) ・ETX (end code) : Code indicating end of text.

1 byte (03h)

・SUM : XOR result (FFh), of adding STX, Text data, and ETX.

2 byte (ASCII code)

(d) Text data format details (transmission sequence).

・Status : Transmission data status.

2 byte (ASCII code)

Used for EEPROM write (“00”: write absent, “01”: write present). ・ID No. : Camera peculiar ID.

KP-FM500WCL and KP-FMD500WCL have (“FF”).

2 byte (ASCII code) ・Area address : Classification of Send data (“01”) and Read command (“81”).

2 byte (ASCII code) ・Relative No. : Sets number (“00” to “FF”) for each adjustment item.

2 byte (ASCII code)

・Data (note) : Sets data to be transmitted.

2 byte x 3 (ASCII code)

Status

2 byte

ID No. 2 byte

Area address

2 byte

Relative No.

2 byte

Data

2 byte x 3

14 byte

S T X

1 byte

Text data

14 byte

E T X

1 byte

S U M 2 byte

18 byte

Page 24

(2) Read (receive) data (slave to master) (a) Command data are converted into ASCII code and transmitted. (b) Comms byte quantity is 10. (c) Comms data format (transmission sequence)

・STX (start code) : Code indicating start of text. 1 byte (02h) ・Text data : Transmit / receive data. 6 byte (ASCII code) ・ETX (end code) : Code indicating end of text. 1 byte (03h) ・SUM : XOR result (FFh), of adding STX, Text data, and ETX.

2 byte (ASCII code)

(d) Text data details (transmission sequence)

・Data (note) : Sets Read data to be transmitted. 2 byte x 3 (ASCII code)

Note: Data transfer sequence

Data bytes 1st byte 2nd byte 3rd byte

1 Data “00” “00” 2 Upper Lower “00” 3 Upper Mid Lower

5. Calculation method of checksum

Example

STX

1 2 3 4 5 6 7

ETX SUM

STATUS ID NO AREA

ADDRES

RELATIVE NO DATA

02h “01” “FF” “01” “04” “00” “00” “00” 03h “28”

1. STAUTUS to DATA are transformed into hexadecimal number on the basis of the ASCII code.

'0'→30h '1'→31h '4'→34h 'F'→46h STX:02h ETX:03h

2. STX to ETX are added all.

02h + 30h + 31h + 46h + 46h + 30h + 31h + 30h + 34h + 30h +30h + 30h + 30h + 30h + 30h + 03h ＝ 2D7h

3. The XOR (Exclusive OR) between the value obtained in 2 clause and FFh are taken, then two column under

the answer become SUM

STX

1 byte

Text data

6 byte

ETX

1 byte

SUM

2 byte

10 byte

Data

2 byte x 3

6 byte

STX STATUS

AREA

RELATIV

DATA

ETX

Page 25

02D7h XOR FFh = 228h

1. Send data (Setting command. Note: 1 to 7 and SUM need to be transformed into ASCII code)

Item STX

1 2 3 4 5 6 7

ETX SUM

STATUS ID NO.

AREA

ADDRESS

RELATIVE

NO.

DATA

TRIGGER

MODE

OFF 02h “01” “FF” “01” “04” “00” “00” “00” 03h “28” FIXED 02h “01” “FF” “01” “04” “01” “00” “00” 03h “27” 1TRIG 02h “01” “FF” “01” “04” “02” “00” “00” 03h “26”

POLARITY

POSITIVE 02h “01” “FF” “01” “0F” “00” “00” “00” 03h “16”

NEGATIVE 02h “01” “FF” “01” “0F” “01” “00” “00” 03h “15”

SOURCE

CL-CC1 02h “01” “FF” “01” “05” “00” “00” “00” 03h “27”

12pin 02h “01” “FF” “01” “05” “01” “00” “00” 03h “26”

NOISE CANCEL

0clk 02h “01” “FF” “01” “63” “00” “00” “00” 03h “23”

255clk 02h “01” “FF” “01” “63” “FF” “00” “00” 03h “F7”

OUTPUT SIGNAL

OFF 02h “01” “FF” “01” “06” “00” “00” “00” 03h “26”

FLASH OUT 02h “01” “FF” “01” “06” “01” “00” “00” 03h “25”

VD OUT 02h “01” “FF” “01” “06” “02” “00” “00” 03h “24”

SHUTTE

SPEED

(*1)

PRESET

OFF 02h “01” “FF” “01” “08” “00” “00” “00” 03h “24”

1/60 02h “01” “FF” “01” “08” “01” “00” “00” 03h “23” 1/100 02h “01” “FF” “01” “08” “02” “00” “00” 03h “22” 1/250 02h “01” “FF” “01” “08” “03” “00” “00” 03h “21” 1/500 02h “01” “FF” “01” “08” “04” “00” “00” 03h “20”

1/1000 02h “01” “FF” “01” “08” “05” “00” “00” 03h “1F”

1/2000 02h “01” “FF” “01” “08” “06” “00” “00” 03h “1E” 1/10000 02h “01” “FF” “01” “08” “07” “00” “00” 03h “1D” 1/50000 02h “01” “FF” “01” “08” “08” “00” “00” 03h “1C”

VARIABLE 02h “01” “FF” “01” “08” “FF” “00” “00” 03h “F8”

VARIABLE（*2）

VALUE (2Byte)

MIN(20us) 02h “01” “FF” “01” “11” “00” “00” “00” 03h “2A”

30110us 02h “01” “FF” “01” “11” “0B” “C1” “00” 03h “04”

MAX 02h “01” “FF” “01” “11” “FF” “FF” “00” 03h “D2”

CONFIG

BASE 02h “01” “FF” “01” “12” “00” “00” “00” 03h “29”

MEDIUM 02h “01” “FF” “01” “12” “01” “00” “00” 03h “28”

FULL 02h “01” “FF” “01” “12” “02” “00” “00” 03h “27”

DECA 02h “01” “FF” “01” “12” “03” “00” “00” 03h “26”

CLK

85MHz 02h “01” “FF” “01” “19” “00” “00” “00” 03h “22” 60MHz 02h “01” “FF” “01” “19” “01” “00” “00” 03h “21”

BINNING(*3)

OFF 02h “01” “FF” “01” “13” “00” “00” “00” 03h “28”

ON 02h “01” “FF” “01” “13” “01” “00” “00” 03h “27”

DATA BIT

8bit 02h “01” “FF” “01” “14” “00” “00” “00” 03h “27” 10bit 02h “01” “FF” “01” “14” “01” “00” “00” 03h “26” 12bit 02h “01” “FF” “01” “14” “02” “00” “00” 03h “25”

GAIN (*4)

0dB (0) 02h “01” “FF” “01” “0C” “00” “00” “00” 03h “19”

18dB (180) 02h “01” “FF” “01” “0C” “B4” “00” “00” 03h “03”

BLACK LEVEL（*5）

MIN (0/255) 02h “01” “FF” “01” “17” “00” “00” “00” 03h “24”

MAX (127/255) 02h “01” “FF” “01” “17” “7F” “00” “00” 03h “07”

TEST PATTERN

OFF 02h “01” “FF” “01” “50” “00” “00” “00” 03h “27”

H 02h “01” “FF” “01” “50” “01” “00” “00” 03h “26” V 02h “01” “FF” “01” “50” “02” “00” “00” 03h “25”

HV 02h “01” “FF” “01” “50” “03” “00” “00” 03h “24”

FLIP

OFF 02h “01” “FF” “01” “51” “00” “00” “00” 03h “26”

H 02h “01” “FF” “01” “51” “01” “00” “00” 03h “25” V 02h “01” “FF” “01” “51” “02” “00” “00” 03h “24”

HV 02h “01” “FF” “01” “51” “03” “00” “00” 03h “23”

(*1) SHUTTER SPEED settings are effective only in the condition TRIGGER MODE is OFF or FIXED SHUTTER. (*2) VARIABLE VALUE can be set only when VARIABLE is selected. It can be set within the range of 0000h to FFFFh . (*3) Binning function is only KP-FM500WCL. (*4) Gain can be set within the range of 00h

to B4h .

(*5) BLACK LEVEL can be set within the range of 00h to 7Fh .

Command list

Page 26

Item STX

1 2 3 4 5 6 7

ETX SUM

STATUS ID NO.

AREA

ADDRESS

RELATIVE

NO.

DATA

PARTIAL

SCAN

(*6)

MODE

OFF 02h “01” “FF” “01” “1E” “00” “00” “00” 03h “16”

ON 02h “01” “FF” “01” “1E” “01” “00” “00” 03h “15”

START(2Byte

)

1 02h “01” “FF” “01” “1F” “00” “01” “00” 03h “14”

2045 02h “01” “FF” “01” “1F” “07” “FD” “00” 03h “E4”

WIDTH(2Byte)

4 02h “01” “FF” “01” “20” “00” “04” “00” 03h “26”

2048 02h “01” “FF” “01” “20” “08” “00” “00” 03h “22”

WHITE

BALANCE

(*7)

R-GAIN

0 02h “01” “FF” “01” “2A” “00” “00” “00” 03h “19” 128 02h “01” “FF” “01” “2A” “80” “00” “00” 03h “11” 255 02h “01” “FF” “01” “2A” “FF” “00” “00” 03h “ED”

B-GAIN

0 02h “01” “FF” “01” “2B” “00” “00” “00” 03h “18” 128 02h “01” “FF” “01” “2B” “80” “00” “00” 03h “10” 255 02h “01” “FF” “01” “2B” “FF” “00” “00” 03h “EC”

FACTORY SETTING SET 02h “01” “FF” “01” “45” “01” “00” “00” 03h “22”

(*6) START of partialscan can be set within the range of 0001h to 07FDh. WIDTH of partialscan can be set within the range of 0004h to 0800h. Please set the sum total of START and WIDTH is 0801h or less. Please set the acquisition width as increments of 4 lines.

(*7) WHITE BALANCE function is only KP-FMD500WCL.

Page 27

2. Read command (Note: 1 to 7 and SUM need to be transformed into ASCII code)

Item STX

1 2 3 4 5 6 7

ETX SUM

STATUS ID NO.

AREA

ADDRESS

RELATIVE

NO.

DATA

TRIGGER

MODE 02h

“00” “FF” “81” “04” “00” “00” “00” 03h “21”

POLARITY 02h

“00” “FF” “81” “0F” “00” “00” “00” 03h “10”

SOURCE 02h

“00” “FF” “81” “05” “00” “00” “00” 03h “20”

NOISE CANCEL 02h

“00” “FF” “81” “63” “00” “00” “00” 03h “1C”

OUTPUT SIGNAL 02h

“00” “FF” “81” “06” “00” “00” “00” 03h “1F”

SHUTTER

SPEED

PRESET 02h

“00” “FF” “81” “08” “00” “00” “00” 03h “1D”

VARIABLE VALUE 02h

“00” “FF” “81” “11” “00” “00” “00” 03h “23”

CONFIG 02h

“00” “FF” “81” “12” “00” “00” “00” 03h “22”

CLK 02h

“00” “FF” “81” “19” “00” “00” “00” 03h “1B”

BINNING（*1） 02h

“00” “FF” “81” “13” “00” “00” “00” 03h “21”

DATA BIT 02h

“00” “FF” “81” “14” “00” “00” “00” 03h “20”

GAIN 02h

“00” “FF” “81” “0C” “00” “00” “00” 03h “12”

BLACK LEVEL 02h

“00” “FF” “81” “17” “00” “00” “00” 03h “1D”

TEST PATTERN 02h

“00” “FF” “81” “50” “00” “00” “00” 03h “20”

FLIP 02h

“00” “FF” “81” “51” “00” “00” “00” 03h “1F”

PARTIAL SCAN

MODE 02h

“00” “FF” “81” “1E” “00” “00” “00” 03h “0F”

START 02h

“00” “FF” “81” “1F” “00” “00” “00” 03h “0E”

WIDTH 02h

“00” “FF” “81” “20” “00” “00” “00” 03h “23”

WHITE BALANCE

（*2）

R-GAIN 02h

“00” “FF” “81” “2A” “00” “00” “00” 03h “12”

B-GAIN 02h

“00” “FF” “81” “2B” “00” “00” “00” 03h “11”

TEMPERATURE 02h

“00” “FF” “81” “62” “00” “00” “00” 03h “1D” （*1）Binning function is only KP-FM500WCL. （*2）WHITE BALANCE function is only KP-FMD500WCL.

Read data from the slave follows “4. Comms command data format(2)”(page 15) of “Remote control”.

Page 28

1. Horizontal timing

(1) 85MHz Base Configuration （1 clk = 11.765 ns）

(2) 60MHz Base Configuration （1 clk = 16.667 ns）

(3) 85MHz Medium Configuration （1 clk = 11.765 ns）

(4) 60MHz Medium Configuration （1 clk = 16.667 ns）

Camera

Link output timing chart

DATA

Active Picture

LVAL

・・・・

8 7

2436

2435

2440

2439

2444

2443

2448

2447

DC DD

・・・・

2434

2433

2438

2437

2442

2441

2446

2445

・・・・

6 5

DA DB

DATA

Active Picture

LVAL

・・・・

8 7

2436

2435

2440

2439

2444

2443

2448

2447

DC DD

・・・・

2434

2433

2438

2437

2442

2441

2446

2445

・・・・

6 5

DA DB

DATA

Active Picture

LVAL

1224 clk

2～5 clk

・・・・

4 3

6 5

8 7

2442

2441

2444

2443

2446

2445

2448

2447

DA DB

・・・・

DATA

Active Picture

LVAL

1224 clk

2～5 clk

・・・・

4 3

6 5

8 7

2442

2441

2444

2443

2446

2445

2448

2447

DA DB

・・・・

Page 29

(5) 85MHz Full configuration （1 clk = 11.765 ns）

(6) 60MHz Full Configuration （1 clk = 16.667 ns）

DATA

Active Picture

LVAL

306 clk

2～5 clk

・・・・

2424

2423

2432

2431

2440

2439

2448

2447

DG DH

・・・・

2422

2421

2430

2429

2438

2437

2446

2445

・・・・

DE DF

4 3

DC DD

2 1

DA DB

・・・・

2420

2419

2428

2427

2436

2435

2444

2443

・・・・

2418

2417

2426

2425

2434

2433

2442

2441

・・・・

DATA

Active Picture

LVAL

306 clk

2～5 clk

・・・・

2424

2423

2432

2431

2440

2439

2448

2447

DG DH

・・・・

2422

2421

2430

2429

2438

2437

2446

2445

・・・・

DE DF

4 3

DC DD

2 1

DA DB

・・・・

2420

2419

2428

2427

2436

2435

2444

2443

・・・・

2418

2417

2426

2425

2434

2433

2442

2441

・・・・

Page 30

(7) 85MHz Deca（10TAP） Configuration （1 clk = 11.765 ns）

(8) 60MHz Deca（10TAP） Configuration （1 clk = 16.667 ns）

DATA

Active Picture

LVAL

245 clk

2～5 clk

・・・・

2418

2417

2428

2427

2438

2437

2448

2447

DG DH

・・・・

2416

2415

2426

2425

2436

2435

2446

2445

・・・・

DE DF

4 3

DC DD

2 1

DA DB

・・・・

2414

2413

2424

2423

2434

2433

2444

2443

・・・・

2412

2411

2422

2421

2432

2431

2442

2441

・・・・

19 29 39

2419 2429 2439

DＩ

・・・・

20 30 40

2420 2430 2440

DＪ

DATA

Active Picture

LVAL

245 clk

2～5 clk

・・・・

2418

2417

2428

2427

2438

2437

2448

2447

DG DH

・・・・

2416

2415

2426

2425

2436

2435

2446

2445

・・・・

DE DF

4 3

DC DD

2 1

DA DB

・・・・

2414

2413

2424

2423

2434

2433

2444

2443

・・・・

2412

2411

2422

2421

2432

2431

2442

2441

・・・・

19 29 39

2419 2429 2439

DＩ

・・・・

20 30 40

2420 2430 2440

DＪ

Page 31

2. Vertical timing

（1）

BINNING:

ＯＦＦ, KP-FMD500WCL

（2）

BINNING:

ＯＮ (*

This function is only KP-FM500WCL.

)

1 horizontal period differs depending on the configuration and clock frequency setting.

CameraLink output 1horizontal period

Base Configuration 85MHz 1H = 14.438us

Base Configuration 60MHz 1H = 20.458us

Medium Configuration 85MHz 1H = 7.246us

Medium Configuration 60MHz 1H = 10.163us

Full Configuration 85MHz 1H = 3.636us

Full Configuration 60MHz 1H = 5.158us

Deca(10TAP) Configration 85MHz 1H = 2.923us

Deca(10TAP) Configration 60MHz 1H = 4.148us

Active Picture

DATA

FVAL

1024H

（When partialscan is ON, the width dividing 2）

42H

Active

DATA

FVAL

2048H

（When partialscan is ON, the width）

46H

Page 32

3. Transmitter LVDS output pulse position measurement

(1)Base Configuration

(a)8bit

D.OUT1

N.U.: Not Used

（ｂ）10bit

D.OUT1

N.U.: Not Used

* When using Base configuration, please be sure to connect to CameraLink cable to D.OUT1. If the cable is connected to D.OUT2, the machine may break down.

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA7-1 DA6-1 N.U. N.U. N.U. DB7 DB6 DA7 DA6

N.U. N.U. N.U. FVAL LVAL N.U. N.U. N.U. N.U.

DB2-1 DB1-1 N.U. N.U. DB5 DB4 DB3 DB2 DB1

DA1-1 DA0-1 DB0 DA5 DA4 DA3 DA2 DA1 DA0

TXOUT 0

TXCLKOUT

Next Cycle

TXOUT

TXOUT 2

TXOUT 3

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA7-1 DA6-1 N.U. DB7 DB6 N.U. N.U. DA7 DA6

DB3-1 DB2-1 N.U. FVAL LVAL DB5 DB4 DB3 DB2

N.U. DA9-1 DB1 DB0 DB9 DB8 N.U. N.U. DA9

DA1-1 DA0-1 DA8 DA5

DA4 DA3 DA2 DA1 DA0

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

Page 33

（ｃ）12bit

D.OUT1

N.U.: Not Used

* When using Base configuration, please be sure to connect to CameraLink cable to D.OUT1. If the cable is connected to D.OUT2, the machine may break down.

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA7-1 DA6-1 N.U. DB7 DB6 DB11 DB10 DA7 DA6

DB3-1 DB2-1 N.U. FVAL LVAL DB5 DB4 DB3 DB2

DA1-1 DA0-1 DA8 DA5 DA4 DA3 DA2 DA1 DA0

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

DA9-1 DB1 DB0 DB9 DB8 DA11 DA10 DA9 DA10-1

Page 34

（２）Medium Configuration

（ａ）8bit

D.OUT1

N.U.: Not Used

D.OUT2

N.U.: Not Used

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA7-1 DA6-1 N.U. DC7 DC6 DB7 DB6 DA7

DA6

DC3-1 DC2-1 N.U. FVAL LVAL DC5 DC4 DC3 DC2

DB2-1 DB1-1 DC1 DC0 DB5 DB4 DB3 DB2 DB1

DA1-1 DA0-1 DB0 DA5 DA4 DA3 DA2 DA1 DA0

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DD7-1 DD6-1 N.U. N.U. N.U. N.U. N.U. DD7 DD6

N.U. N.U. N.U. FVAL LVAL N.U. N.U. N.U. N.U.

N.U. N.U. N.U. N.U. N.U. N.U. N.U. N.U. N.U.

DD1-1 DD0-1 N.U. DD5 DD4 DD3 DD2 DD1 DD0

Next Cycle

TYOUT 0

TYC

LKOUT

TYOUT 1

TYOUT 2

TYOUT 3

Page 35

（ｂ）10bit

D.OUT1

N.U.: Not Used

D.OUT2

N.U.: Not Used

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA7-1 DA6-1 N.U. DB7 DB6 N.U. N.U. DA7 DA6

DB3-1 DB2-1 N.U. FVAL LVAL DB5 DB4 DB3 DB2

N.U. DA9-1 DB1 DB0 DB9 DB8 N.U. N.U. DA9

DA1-1 DA0-1

DA8 DA5 DA4 DA3 DA2 DA1 DA0

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DD7-1 DD6-1 N.U. N.U. N.U. DC7 DC6 DD7 DD6

N.U. N.U. N.U. FVAL LVAL DD9 DD8 N.U. N.U.

DC2-1 DC1-1 DC9 DC8 DC5 DC4 DC3 DC2 DC1

DD1-1 DD0-1 DC0 DD5 DD4 DD3 DD2 DD1 DD0

Next Cycle

TYOUT 0

TYCLKOUT

TYOUT 1

TYOUT 2

TYOUT 3

Page 36

（ｃ）12bit

D.OUT1

N.U.: Not Used

D.OUT2

N.U.: Not Used

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA7-1 DA6-1 N.U. DB7 DB6 DB11

DB10 DA7 DA6

DB3-1 DB2-1 N.U. FVAL LVAL DB5 DB4 DB3 DB2

DA1-1 DA0-1 DA8 DA5 DA4 DA3 DA2 DA1 DA0

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

DA9-1 DB1 DB0 DB9 DB8 DA11 DA10 DA9 DA10-1

DC2-1

DC1-1 DC9 DC8 DC5

DC4 DC3 DC2 DC1

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DD7-1 DD6-1 N.U. DD11 DD10 DC7 DC6 DD7 DD6

DD1-1 DD0-1 DC0 DD5 DD4 DD3 DD2 DD1 DD0

Next Cycle

TYOUT 0

TYCLKOUT

TYOUT 1

TYOUT 2

TYOUT 3

N.U. FVAL LVAL

DD9 DD8 DC11 DC10 DC11-1

DC10-1

Page 37

（3）Full Configuration

（ａ）8bit

D.OUT1

N.U.: Not Used

D.OUT2

N.U.: Not Used

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DD7-1 DD6-1 N.U. DF7 DF6 DE7 DE6 DD7 DD6

DF3-1 DF2-1 N.U. FVAL LVAL DF5 DF4 DF3 DF2

DD1-1 DD0-1 DE0 DD5 DD4 DD3 DD2 DD1 DD0

Next Cycle

TYOUT 0

TYCLKOUT

TYOUT 1

TYOUT 2

TYOUT 3

DF1 DF0 DE5 DE4 DE3 DE2 DE1 DE2-1 DE1-1

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DG7-1 DG6-1 N.U. N.U. N.U. DH7 DH6 DG7 DG6

N.U. N.U. N.U. FVAL LVAL N.U. N.U.

N.U. N.U.

DG1-1 DG0-1 DH0 DG5 DG4 DG3 DG2 DG1 DG0

Next Cycle

OUT 0

CLKOUT

OUT 1

OUT 2

OUT 3

N.U. N.U. DH5 DH4 DH3 DH2 DH1 DH2-1 DH1-1

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA7-1 DA6-1 N.U. DC7 DC6 DB7 DB6 DA7 DA6

DC3-1 DC2-1 N.U. FVAL LVAL DC5 DC4 DC3 DC2

DB2-1 DB1-1 DC1 DC0 DB5 DB4 DB3 DB2 DB1

DA1-1 DA0-1 DB0 DA5 DA4 DA3 DA2 DA1 DA0

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

Page 38

（ｂ）10bit

D.OUT1

N.U.: Not Used

D.OUT2

N.U.: Not Used

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA9-1 DA8-1 DA1 DC9 DC8 DB9 DB8 DA9 DA8

DC5-1 DC4-1 DA0 FVAL LVAL DC7 DC6 DC5 DC4

DB4-1 DB3-1 DC3 DC2 DB7 DB6 DB5 DB4 DB3

DA3-1 DA2-1 DB2 DA7 DA6 DA5 DA4 DA3 DA2

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DD9-1 DD8-1 DC0 DF9 DF8 DE9 DE8 DD9 DD8

DF5-1 DF4-1 DB1 DB0 LVAL DF7 DF6 DF5 DF4

DD3-1 DD2-1 DE2 DD7 DD6 DD5 DD4 DD3 DD2

Next Cycle

TYOUT 0

TYCLKOUT

TYOUT 1

TYOUT 2

TYOUT 3

DF3 DF2 DE7 DE6 DE5 DE4 DE3 DE4-1 DE3-1

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DG9-1 DG8-1 DH1 DG0 DF1 DH9 DH8 DG9 DG8

DE0-1 DD1-1 DH0 DG1 LVAL DF0 DE1 DE0 DD1

DG3-1 DG2-1 DH2 DG7 DG6 DG5 DG4 DG3 DG2

Next Cycle

OUT 0

CLKOUT

OUT 1

OUT 2

OUT 3

DD0 DC1 DH7 DH6 DH5 DH4 DH3 DH4-1 DH3-1

Page 39

（４）Deca（10TAP） Configuration

（ａ）8bit

D.OUT1

N.U.: Not Used

D.OUT2

N.U.: Not Used

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DA5-1 DD1-1 DC7 DC1 DC0 DB3 DB2 DA5 DD1

DC4-1 DC3-1 DD0 FVAL LVAL DC6 DC5 DC4 DC3

DB1-1 DB0-1 DC2 DB7 DB6 DB5 DB4 DB1 DB0

DA1-1 DA0-1 DA7 DA6 DA4 DA3 DA2

DA1 DA0

Next Cycle

TXOUT 0

TXCLKOUT

TXOUT 1

TXOUT 2

TXOUT 3

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DJ1-1 DJ0-1 DJ7 DJ6 DJ5 DJ3 DJ2 DJ1 DJ0

DG6-1 DG5-1 DH4 DH3 DH1 DH0 DG7 DG6 DG5

Next Cycle

OUT 0

CLKOUT

OUT 1

OUT 2

OUT 3

DI7 DI4 DI3 DI2 DI1 DH6 DH5 DH6-1 DH5-1

DH2-1

DJ4 DI6 DI5 DI0 DH7 DH2 LVAL LVAL-1

Previous Cycle

CLK

11.765 ns (85MHz) or 16.667ns (60MHz)

DF6-1 DF5-1 DG4 DG3 DG2 DG0 DF7 DF6 DF5

DD3-1 DD2-1 DE1 DE0 DD6 DD5 DD4 DD3 DD2

Next Cycle

TYOUT 0

TYCLKOUT

TYOUT 1

TYOUT 2

TYOUT 3

DF4 DF1 DF0 DE7 DE6 DE3 DE2 DE3-1 DE2-1

DD7-1 DG1 DF3 DF2 DE5 DE4 DD7 LVAL

LVAL-1

Page 40

4. Output sequence

DA, DB, DC, DD, DE, DF, DG, DH, DI and DJ show output TAP of the cameralink. Refer to “Transmitter LVDS output pulse position measurement“ for details.

(1) Base Configuration

(2) Medium Configuration

2448 pixels

2048 lines

DA DB

2448 pixels

2048 lines

DA DB DC DD

Page 41

(3) Full Configuration

(4) Deca Configuration (10TAP)

2448 pixels

2048

lines

DA DB DC DD DE DF DG DH

2448 pixels

2048 lines

DA DB DC DD DE DF DG DH DI DJ

Page 42

(5). Color Output sequence（KP-FMD500WCL）

*FLIP：OFF

2048

lines

R G G B

・・・・・・・・・・・・・・

・・・・・・

2448 pixels

R G

G B

R G G B

R G B G

・・・・・・・・・・・・・・

R G

G B

R G G B

Page 43

1 horizontal period differs depending on the configuration and clock frequency setting.

CameraLink output 1horizontal period Base Configuration 85MHz 1H = 14.438us Base Configuration 60MHz 1H = 20.458us

Medium Configuration 85MHz 1H = 7.246us Medium Configuration 60MHz 1H = 10.163us

Full Configuration 85MHz 1H = 3.636us

Full Configuration 60MHz 1H = 5.158us Deca(10TAP) Configration 85MHz 1H = 2.923us Deca(10TAP) Configration 60MHz 1H = 4.148us

（1）Normal mode

The exposure and the image output are repeated at the set shutter speed.

(a)

Partial scan

: OFF

(b)

Partial scan

: ON

Trigger operation and timing chart

Shutter time

Shutter time (Camera setting value)

DATA

VD OUT

FVAL

30H

13H

2048H

2094H

FLASH OUT

Shutter time

Shutter time (Camera setting value)

DATA

VD OUT

FVAL

30H

13H

(width)H

(width+46)H

FLASH OUT

Page 44

Frame rate can be calculated from following equations using width of picture grabbing.

Cameralink output setting Frame rate(fps)

Base Configuration 85MHz 74250000/(Width+46)/1072

Base Configuration 60MHz 74250000/(Width+46)/1519

Medium Configuration 85MHz 74250000/(Width+46)/538

Medium Configuration 60MHz 74250000/(Width+46)/762

Full Configuration 85MHz 74250000/(Width+46)/270

Full Configuration 60MHz 74250000/(Width+46)/383

Deca（10TAP） Configuration 85MHz 74250000/(Width+46)/217

Deca（10TAP） Configuration 60MHz 74250000/(Width+46)/307

[Note] Please set the acquisition width as increments of 4 lines.

Graph following shows frame rate in each of picture grabbing in the partial scan mode.

100

1000

10000

0 500 1000 1500 2000

Frame rate[fps]

Width of picture grabbing[H]

PartialScan Frame rate

Page 45

(2). Fixed shutter mode

When trigger polarity setting is

POSITIVE

, after the trigger signal rise, exposure is start. The exposure time is set by

the camera electronic shutter speed. The video output is obtained immediately after the end of fixed exposure.

(a)

Partial scan

: OFF

(b)

Partial scan

: ON

More than （width+46）H

Trigger input

(POSITIVE)

High Low

Shutter time

Shutter time (Camera setting value)

DATA

More than 5us

FLASH OUT

Approx.

0.3us

VD OUT

FVAL

13H

（width）H

22H

13.73us

More than 2094H

Trigger input

(POSITIVE)

High Low

Shutter time Shutter time

(Camera setting value)

DATA

More than 5us

FLASH OUT

Approx.

0.3us

VD OUT

FVAL

13H

2048H

22H

13.73us

Page 46

(3). ONE trigger mode

When trigger polarity setting is

POSITIVE

, after the trigger signal rise, exposure is start.

Exposure is terminated at the falling edge of the trigger, and video data is output.

(a)

Partial scan

: OFF

（b）

Partial scan

: ON

Trigger input

(POSITIVE)

High Low

Shutter time

Shutter time (Integration time)

DATA

More than (width+46)H

FLASH OUT

Approx.

0.3us

VD OUT

FVAL

13H

13.73us

More than 5us

（width）H

22H

Trigger input

(POSITIVE)

High Low

Shutter time

Shutter time (Integration time)

DATA

More than 2094H

FLASH OUT

Approx.

0.3us

VD OUT

FVAL

13H

13.73us

More than 5us

2048H

22H

Page 47

1. Input signal The level of the trigger signal input to KP-FM500WCL and KP-FMD500WCL is as follows.

(1) Input from CameraLink cable LVDS level.

(2) Input from DCIN/SYNC connector High level : +2.5 to +5.0 V Low level : 0 to +0.3 V

2. Output signal The level of the VD and FLASH output from KP-FM500WCL and KP-FMD500WCL is as follows. High level : +5.0V Low level : 0V

Input / Output signal

Page 48

Spectral response of KP-FM500WCL and KP-FMD500WCL are showing.

1. KP-FM500WCL

2. KP-FMD500WCL

Spectral response

100

400 450 500 550 600 650 700 750 800 850 900 950 1000

Relative Response [%]

Wave Length [nm]

100

400 450 500 550 600 650 700 750 800 850 900 950 1000

Relative Response [%]

Wave length [nm]

R G B IR-CUT Filter

Page 49

KP-FM500WCL

KP-FMD500WCL

1) Imaging device

2/3 inch global shutter method CMOS

Effective pixels

2448 (H) x 2048 (V)

Pixel size

3.45μm (H) x 3.45μm (V)

Color filter

None

RGB primary color mosaic filter

2) Image area

8.45mm (H) x 7.07mm (V)

3) Scanning system

Progressive scan

4) Frame rate

MAX.163 frame per second (full pixel readout)

5) Horizontal

Deca

Configuration(85MHz) : 342.166kHz

scanning frequency

Deca Configuration(60MHz) : 241.071kHz

Full Configuration(85MHz) : 275.000kHz

Full Configuration(60MHz) : 193.864kHz

Medium Configuration (85MHz) : 138.011kHz

Medium Configu

ration (60MHz) : 97.441kHz

Base Configuration (85MHz) : 69.263kHz

Base Configuration (60MHz) : 48.881kHz

6) Vertical scanning

Deca Configuration(85MHz) : 163.403Hz

(full pixel readout)

Deca Configuration(60MHz) : 115.5Hz

ll Configuration(85MHz) : 131.328Hz

Full Configuration(60MHz) : 92.58Hz

Medium Configuration(85MHz) : 65.908Hz

Medium Configuration(60MHz) : 46.533Hz

Base Configuration(85MHz) : 33.077Hz

Base Configuration(60MHz) : 23.343Hz

7) Sy

nchronization

Internal

8) Lens mount

C mount

9) Flange back

17.526mm

（

no adjustment

）

Optical filter

Dummy glass (AR coated)

IR cut filter

11) Video output

Digital output

（

CameraLink

）

Base Configuration 2TAP (85MHz or 60MHz)

Medium Configuration 4TAP (85MHz or 60MHz)

Full Configuration 8TAP (85MHz or

60MHz)

Deca Configuration 10TAP (85MHz or 60MHz)

Output image size

2048 (H) x 2048 (V) (full pixel readout)

12) Resolution

Horizontal / Vertical

：

2000TV lines

Horizontal / Vertical

：

1400

TV lines

13) Sensitivity

500 lux, F8, 3200 K

1600 lux, F8, 320

0 K

14) S/N

50 dB

15) Electronic shutter

Preset

OFF,1/60,1/100,1/250,1/500,1/1000,1/2000,1/10000,1/50000

second

Variable

20μs

～

655370μs

16) Gamma

γ = 1

17) Frame on demand

OFF（Normal mode

）

, Fixed shutter mode, ONE trigger mode

18) Partial

scan Selectable start position and width of picture grabbing in 4line step

19) Remote control

Control items

TRIGGER

、

SHUTTER

、

BINNING

、

DATA BIT

、

CONFIG

、

CLK、FLIP、TEST

12pinOUT

、

GAIN

、

BLACK LEVEL

、

PARTIAL SCAN

、

FACTORY SETTING

20) Power supply

DC1

2V±1V

21) Power consumption

Approx. 3

0mA (Approx.

3.6W)

22) Ambient temperature

Performance

0℃

to +40

℃

(+32 to +104F) / less than RH 90

％

Operating

-10℃

to +50

℃

(+14 to +122F) / less than RH 90

％

Storage

20℃

to +60

℃

4 to

+140F) / less than RH 70

％

(without dew)

23) Vibration endurance

15～200Hz(98m/s

）

, sweep: 10 minutes x 3 (Total 30min), XYZ(Total 90min)

24) Shock endurance

686

m/ s2

(once each

front, back,

top, bottom, left and right)

25) Dimensions

44(W)

x 44(H) x 41(D) mm

(Not including protrusions)

26) Mass

Approx. 130g

27) Standard compositions Camera, Composition table

Specifications

Page 50

Dimensions

UNIT：mm SCALE：NTS

Page 51

Hitachi Kokusai Electric Inc.

32, Miyuki-cho, Kodaira-shi, Tokyo 187-8511, Japan Phone: +81-50-3383-3432, Fax: +81-42-322-3270 URL: http://www.hitachi-kokusai.co.jp/global/en/index.html

Hitachi Kokusai Electric Asia (Singapore) Pte. Ltd.

Office : 7 Tampines Grande, #02-04 Hitachi Square, Singapore 528736

Phone: +65-6212-1945, Fax: +65-6231-2429

URL: http://www.hitachi-kokusai.com.sg/

Hitachi Kokusai Electric America, Ltd.

Head Quarter : 150 Crossways Park Drive, Woodbury, NY 11797, U.S.A. Northeast Office Phone: 1-516-921-7200 Facsimile: 1-516-496-3718 West Office : 11258 Monarch street Unit H, Garden Grove, CA 92841, U.S.A Phone: 1-310-328-6116 Facsimile: 1-310-328-6252 Midwest Office : 2531 Technology Drive, Suite 310 Elgin, IL 60124, U.S.A Phone: 1-847-428-5793 Facsimile: 1-847-428-5785 Midwest Sales Phone: 1-714-895-6116 Facsimile: 1-714-895-6252 Southeast Sales Phone: 1-850-934-1234 Facsimile: 1-516-496-3718 Central Sales Phone: 1-817-490-5124 Facsimile: 1-516-496-3718 URL: http://www.hitachikokusai.us/

Hitachi Kokusai Electric Europe GmbH

Frankfurt Head Office : SiemensStrasse 9, D-63263 Neu-Isenburg, Germany

Phone: +49(0)6102-8332-0, Fax: +49(0)6102-202616

London Office : Windsor House, Queensgate, Britannia Road, Waltham Cross,

Hertfordshire, EN8 7NX, United Kingdom

Phone: +44(0)845-1212177, Fax: +44(0)845-1212180

URL: http://www.hitachi-keu.com/

Hitachi Kokusai Linear Equipamentos Eletrônicos S/A

Head Office : Rodovia BR 459, No121–A, Km 121 - Bairro Corrego Raso,

Santa Rita do Sapucai, 37540-000, MG –Brazil

Phone: +55(35)3473-3473, Fax: +55(35)3473-3474

Sales Office : Alameda Santos, 745 -9 Andar- Conj. 91B, Cerqueira Cesar,

São Paulo, 01419-001, SP –Brazil

Phone: +55(11)3541-3244, Fax: +55(11)3541-2425

URL: http://www.hitachi-linear.com.br/

Hitachi Kokusai Electric Turkey Elektronik Ürünleri Sanayi ve Ticaret A.Ş.

Head Office : Istanbul Deri OSB Ⅷ-5 Parsel No.1, 34953 Tuzla Istanbul, Turkey Tuzla Branch : Istanbul Endüstri ve Ticaret Serbest Bölgesi, Akif Kopuz Cad. No:3 34957 Tuzla Istanbul, Turkey Phone: 90-216-394-2908 Facsimile: 90-216-394-2909 URL: http://www.hitachi-kokusai.com.tr/