This document provides specifications for several O.T. light models. The lights have key features including stainless steel arms, a reserve light source that activates if the main bulb fails, handles to adjust focus, and the ability to control light intensity. Technical details include the dome head size, number and wattage of halogen bulbs, maximum light output, height adjustment range, reflector size and type, color temperature, temperature rise at 1 meter, and control unit.
This document discusses surgical lights and their key features. Surgical lights help surgeons illuminate the inside of the body during operations. Modern lights use a power source with 4-8 halogen lamps in a dome configuration to provide bright, uniform illumination without shadows. The optimal color temperature is around 4500 Kelvin for visualization and reducing eye strain. Ceiling-mounted surgical lights have adjustable mounts that allow the light to be positioned and tilted from 30-60 degrees as needed by the surgeon.
Surgical lighting in operation theatreAmol Gaikwad
This document discusses surgical lighting in operating theatres. It covers topics like the importance of lighting for surgeons' vision, factors to consider when selecting lighting like adjustability, brightness and control. It describes technical specifications of lighting like lux levels, color rendition, color temperature, and depth of illumination. Norms and requirements for surgical lights set by IEC are outlined, including the need for homogeneous light, minimum lux levels and color rendering. Different configurations for surgical lights like ceiling-mounted, wall-mounted and floor standing are briefly explained. Lamp technologies including incandescent, gas discharge and LED lights are also summarized.
1. The operating room table is fully adjustable to position patients in various surgical positions and orientations. It has movable sections, articulating joints, and tilt capabilities to manipulate the patient as needed.
2. Accessories like armboards, leg holders, and overhead tables provide support and access around the patient. The table also has features like smooth contours, radiolucency, and electrical or hydraulic controls for adjustments.
3. Proper positioning is important for patient safety, surgical access, and physiological needs. It prevents pressure points, maintains circulation and breathing, and positions anatomical structures for procedures. Common positions include supine, prone, lateral, lithotomy and their variations.
Diathermy
• Diathermy uses an electric current to cause localized heating,
permitting cutting of tissue and coagulation of blood.
• It may be unipolar or bipolar, the former having several settings
depending on which function is required.
Unipolar diathermy
Bipolar diathermy
• Advantages
• Allows surgery to proceed with better hemostatic control than using sharp
instruments.
• Different modes can be used to achieve different effects on different
tissues.
• Disadvantages
• High currents used in diathermy equipment cause induction in cables
used for other purposes. This results in interference in the ECG and other
monitors when diathermy is in use.
Safety
Surgical instruments require careful cleaning and sterilization to prevent corrosion and ensure proper function. Residues from procedures like blood and tissue can cause staining if left on instruments for over an hour. Instruments should be cleaned within 60 minutes of a surgery using an approved neutral pH solution. Ultrasonic cleaning is an effective method that is more efficient than hand washing. All instruments must be thoroughly dried and lubricated after cleaning before being packaged and sterilized. Regular inspection and sharpening of instruments like scissors and bone cutters is important to maintain precision.
Surgical instruments are incredibly important for hospitals around the country. They represent a significant investment hospitals make to take care of their patients. As such, they must always be maintained in good working order. Better care and maintenance leads to better patient care as well as cost savings by increasing the tools’ lifespan.
A suction machine, also known as an aspirator, is a medical device that uses suction to remove obstructions like mucus, blood, or secretions from a person's airway. It maintains a clear airway for individuals unable to clear their own secretions due to lack of consciousness or an ongoing medical procedure. Precautions must be taken when using suction machines to avoid potential complications like hypoxia, airway trauma, infection, or bradycardia.
Suction machines- Applications and Maintenanceshashi sinha
Suction machines (also known as aspirators) are used to remove unwanted fluid from body cavities. They are found in operating theatres, delivery suites, ENT and emergency departments. Smaller specialised suctions are used in dental departments.
How it works
Suction is generated by a pump. This is normally an electrically powered motor, but manually powered versions are also often found. The pump generates a suction that draws air from a bottle. The reduced pressure in this bottle then draws the fluid from the patient via a tube. The fluid remains in the bottle until disposal is possible. A valve prevents fluid from passing into the motor itself.
This document discusses surgical lights and their key features. Surgical lights help surgeons illuminate the inside of the body during operations. Modern lights use a power source with 4-8 halogen lamps in a dome configuration to provide bright, uniform illumination without shadows. The optimal color temperature is around 4500 Kelvin for visualization and reducing eye strain. Ceiling-mounted surgical lights have adjustable mounts that allow the light to be positioned and tilted from 30-60 degrees as needed by the surgeon.
Surgical lighting in operation theatreAmol Gaikwad
This document discusses surgical lighting in operating theatres. It covers topics like the importance of lighting for surgeons' vision, factors to consider when selecting lighting like adjustability, brightness and control. It describes technical specifications of lighting like lux levels, color rendition, color temperature, and depth of illumination. Norms and requirements for surgical lights set by IEC are outlined, including the need for homogeneous light, minimum lux levels and color rendering. Different configurations for surgical lights like ceiling-mounted, wall-mounted and floor standing are briefly explained. Lamp technologies including incandescent, gas discharge and LED lights are also summarized.
1. The operating room table is fully adjustable to position patients in various surgical positions and orientations. It has movable sections, articulating joints, and tilt capabilities to manipulate the patient as needed.
2. Accessories like armboards, leg holders, and overhead tables provide support and access around the patient. The table also has features like smooth contours, radiolucency, and electrical or hydraulic controls for adjustments.
3. Proper positioning is important for patient safety, surgical access, and physiological needs. It prevents pressure points, maintains circulation and breathing, and positions anatomical structures for procedures. Common positions include supine, prone, lateral, lithotomy and their variations.
Diathermy
• Diathermy uses an electric current to cause localized heating,
permitting cutting of tissue and coagulation of blood.
• It may be unipolar or bipolar, the former having several settings
depending on which function is required.
Unipolar diathermy
Bipolar diathermy
• Advantages
• Allows surgery to proceed with better hemostatic control than using sharp
instruments.
• Different modes can be used to achieve different effects on different
tissues.
• Disadvantages
• High currents used in diathermy equipment cause induction in cables
used for other purposes. This results in interference in the ECG and other
monitors when diathermy is in use.
Safety
Surgical instruments require careful cleaning and sterilization to prevent corrosion and ensure proper function. Residues from procedures like blood and tissue can cause staining if left on instruments for over an hour. Instruments should be cleaned within 60 minutes of a surgery using an approved neutral pH solution. Ultrasonic cleaning is an effective method that is more efficient than hand washing. All instruments must be thoroughly dried and lubricated after cleaning before being packaged and sterilized. Regular inspection and sharpening of instruments like scissors and bone cutters is important to maintain precision.
Surgical instruments are incredibly important for hospitals around the country. They represent a significant investment hospitals make to take care of their patients. As such, they must always be maintained in good working order. Better care and maintenance leads to better patient care as well as cost savings by increasing the tools’ lifespan.
A suction machine, also known as an aspirator, is a medical device that uses suction to remove obstructions like mucus, blood, or secretions from a person's airway. It maintains a clear airway for individuals unable to clear their own secretions due to lack of consciousness or an ongoing medical procedure. Precautions must be taken when using suction machines to avoid potential complications like hypoxia, airway trauma, infection, or bradycardia.
Suction machines- Applications and Maintenanceshashi sinha
Suction machines (also known as aspirators) are used to remove unwanted fluid from body cavities. They are found in operating theatres, delivery suites, ENT and emergency departments. Smaller specialised suctions are used in dental departments.
How it works
Suction is generated by a pump. This is normally an electrically powered motor, but manually powered versions are also often found. The pump generates a suction that draws air from a bottle. The reduced pressure in this bottle then draws the fluid from the patient via a tube. The fluid remains in the bottle until disposal is possible. A valve prevents fluid from passing into the motor itself.
This document discusses theatre design and ventilation requirements for operating rooms. It outlines four zones of a theatre with increasing sterility. An ideal theatre has air delivery, filtration, temperature and humidity control systems. Various types of ventilation are described including conventional, high velocity air jets, and different styles of laminar flow. Standards for air flow direction, viable organisms and ultraclean zones are provided. Best practices are outlined for elements like air changes per hour, water supply, and antibiotic prophylaxis for patients.
This document discusses patient warming systems used during anesthesia and surgery to prevent hypothermia. Induction of anesthesia can decrease core body temperature by over 1.5 degrees Celsius in the first hour. Forced air warming blankets are more effective at conductive warming than static blankets. Hypothermia can lead to complications like coagulation issues, increased oxygen consumption, cardiac issues, and prolonged hospital stays. Warming blankets are available for different body parts and surgeries, and new systems aim to rapidly induce heat transfer and prevent bacterial growth and burns.
Suction is frequently used to remove secretions from the lungs in intubated or tracheostomy patients unable to cough effectively. Proper suction equipment includes pumps, tubing, connections, and catheters. Pumps can be wall vacuum, electrical, portable battery-powered, or foot pumps. Tubing leads from pumps to connections, usually Y-connectors. Catheters come in soft plastic or rubber and range in size but should not exceed half the tube diameter. Proper suction technique minimizes trauma and hypoxia through controlled pressure and timing.
The document discusses key aspects of operating room design and procedures. It outlines considerations for traffic flow, ventilation, and emergency signals to ensure a safe surgical environment. Proper attire is also described, including head covers, masks, gowns and gloves to prevent infection and protect patients.
An anesthesia machine uses gas supply and delivery systems to provide precise mixtures of medical gases like oxygen, nitrous oxide, and anesthetic vapors to patients during surgery. Key components include connections to hospital gas lines, reserve gas cylinders, flow meters, vaporizers, and monitors. Modern machines also integrate ventilators and monitors for vital signs. Anesthesia machines allow anesthesiologists to safely induce and maintain general anesthesia, while carefully controlling gas concentrations and supporting patient breathing.
Operating theater books contain detailed records of surgical procedures and patients, which are used for planning and ordering supplies. These confidential records provide information on patient care journeys. Traditional paper-based operating theater books included patient names, ages, addresses, diagnoses, attending medical staff, dates and times of operations, and anesthetics used. While some organizations still use handwritten records, computer-based systems provide more secure, efficient access to records for medical staff in emergencies. Computer networks allow records to be easily accessed from any location in the hospital and save medical personnel time retrieving files. Computerized records also improve patient care, safety, and decision making.
The document discusses the management and design considerations for an operation theatre (OT) suite in a hospital. It covers key aspects like location, number of operating rooms, zoning, equipment, lighting, ventilation, safety hazards, emergency equipment and patient protection protocols. The OT suite needs to be carefully planned and designed to minimize infection risks through segregated traffic flow and maintaining different cleanliness zones, from protective to sterile areas.
this is a very brief guide for medical students and interns who will be going in the o.t for the first time. this presentation includes almost all aspects of o.t.
This document discusses sterilization and maintaining a sterile environment in operating theatres. It covers the history of sterilization practices dating back to Joseph Lister in the 1800s. It also discusses the importance of proper ventilation, sources of infectious agents, and different ventilation systems used in operating rooms. Further, it summarizes various sterilization methods like fumigation using formaldehyde and newer non-toxic compounds. The roles and best practices of the central sterile supply department and microbiology department are also highlighted.
This chapter discusses point-of-use processing for medical devices, which involves sterilizing items immediately before use close to the patient care area. It defines flash sterilization as sterilizing unwrapped instruments in an emergency using a short sterilization cycle. The chapter reviews industry standards for flash sterilization from organizations like AAMI and AORN, which say it should only be used in certain situations. It also discusses using oxidative agents instead of heat for processing heat-sensitive devices at point of use.
Sterilization of ot & ot equipments pritamhavalprit
The document discusses various methods of sterilization and disinfection used in hospitals. It defines key terms and outlines the order of resistance of different microorganisms. Various sterilization techniques are described including steam sterilization, dry heat sterilization, filtration, boiling and chemical sterilization using formaldehyde, alcohols, chlorine and other agents. Monitoring of sterilization is discussed including mechanical, biological and chemical indicators. Factors influencing sterilization such as concentration, temperature, and bioburden are also summarized.
This document discusses complex surgical instruments used in medical procedures. It provides an overview of powered surgical instruments, which can be electrically, pneumatically, or battery powered. These instruments are delicate and difficult to clean due to their complex internal mechanisms. The document outlines the multi-step process required to properly clean, disinfect, and sterilize powered instruments according to manufacturer guidelines. It also discusses endoscopic instruments, including flexible fiberoptic and rigid endoscopes. Endoscopes pose challenges for cleaning due to internal channels and crevices. The document stresses the importance of following regulations and guidelines as well as manufacturer instructions to safely reprocess these specialized medical devices.
The document discusses fire safety in operating theaters. It outlines the fire triad of fuel, oxidizer, and ignition source and emphasizes prevention by separating these elements. It describes typical fuels and ignition sources in operating rooms and recommendations to reduce risks, such as using laser-resistant endotracheal tubes. The document also covers management of different types of fires and the importance of safety education for appropriate responses to fires.
This document discusses cleaning and disinfection of medical instruments. It notes that cleaning is the first step to remove visible and non-visible soils before sterilization. Proper cleaning is important to reduce the microbial load and prevent transmission of infection. The document outlines the cleaning process and highlights the importance of promptly cleaning instruments after use to prevent bacterial growth. It also discusses the different classifications of medical devices based on infection risk and appropriate disinfection or sterilization methods.
A suction machine, also known as an aspirator, is a medical device that uses negative pressure to remove obstructions like mucus or blood from a patient's airway. It is commonly used when a patient is unable to clear their own airway due to lack of consciousness or an ongoing medical procedure. Portable suction machines are growing in popularity due to advances in technology that allow them to be lightweight and easy to transport. They consist of components like batteries, a vacuum pump, filters, tubing, and a collection canister.
Surgical draping procedures create a sterile field by carefully positioning sterile sheets and towels to isolate the surgical site and exposed instruments. Drapes must form an effective barrier against microorganisms while being resistant to fluids and abrasion. Both reusable and disposable drapes are used, with disposables reducing hazards of contamination but creating waste disposal issues. Specific drapes are used for different body areas like the perineum or extremities, with the goal being to properly isolate the surgical site while allowing access and movement as needed.
4.hazards of working in the operation roomHenok Eshetie
This document outlines various hazards faced by those working in operating theatres. It discusses pollution from anaesthetic agents which can cause health issues with chronic exposure. Biological hazards like infections from needlesticks or airborne pathogens are also a risk. Physical hazards include injuries from sharp objects, falls, fires or radiation. Electrical accidents are another danger, as are personal hazards such as stress, fatigue, or drug and alcohol abuse. A variety of precautions are recommended to minimize risks from these various hazards of working in operating rooms.
The document is about Mop and Instrument Count in OT. It appears to be a title and author attribution. In 3 sentences or less, the document provides a title for counting mops and instruments in an operating theater, and attributes the document to Riya Sanjay Baghele from Nagpur.
Behavioural Marketing & how to get your customers to love youJohn Watton
The World of Marketing is now more multi-channel dependent than ever. Find out how to better integrate your email, web, mobile and social media marketing to deliver outstanding ROI. And how a behavioural marketing approach can drive personalised, multi-channel experiences for your customers that ultimately means they'll love you to death.
This presentation looks at Behavioural Marketing and the simple journey you can follow to deliver a more personalised experience for your customers:
How to capture the things people do when they interact with your company across all channels (email, web, mobile, social, etc).
How to combine that data with what you already know about that person – the profile & preferences; or past behaviours.
The rules to apply to the data
How to use the rules to generate a personalised interaction and a multi–channel, multi-step relationship that delivers the most relevant customer experience for the individual.
Winning and nurturing leads in a web 2.0 environment; ShipServ and why conten...John Watton
Presentation I gave at a B2B Marketing Magazine seminar in November 2009 together with Stan from http://www.velocitypartners.co.uk/ and the subject of content marketing in lead generation
This document discusses theatre design and ventilation requirements for operating rooms. It outlines four zones of a theatre with increasing sterility. An ideal theatre has air delivery, filtration, temperature and humidity control systems. Various types of ventilation are described including conventional, high velocity air jets, and different styles of laminar flow. Standards for air flow direction, viable organisms and ultraclean zones are provided. Best practices are outlined for elements like air changes per hour, water supply, and antibiotic prophylaxis for patients.
This document discusses patient warming systems used during anesthesia and surgery to prevent hypothermia. Induction of anesthesia can decrease core body temperature by over 1.5 degrees Celsius in the first hour. Forced air warming blankets are more effective at conductive warming than static blankets. Hypothermia can lead to complications like coagulation issues, increased oxygen consumption, cardiac issues, and prolonged hospital stays. Warming blankets are available for different body parts and surgeries, and new systems aim to rapidly induce heat transfer and prevent bacterial growth and burns.
Suction is frequently used to remove secretions from the lungs in intubated or tracheostomy patients unable to cough effectively. Proper suction equipment includes pumps, tubing, connections, and catheters. Pumps can be wall vacuum, electrical, portable battery-powered, or foot pumps. Tubing leads from pumps to connections, usually Y-connectors. Catheters come in soft plastic or rubber and range in size but should not exceed half the tube diameter. Proper suction technique minimizes trauma and hypoxia through controlled pressure and timing.
The document discusses key aspects of operating room design and procedures. It outlines considerations for traffic flow, ventilation, and emergency signals to ensure a safe surgical environment. Proper attire is also described, including head covers, masks, gowns and gloves to prevent infection and protect patients.
An anesthesia machine uses gas supply and delivery systems to provide precise mixtures of medical gases like oxygen, nitrous oxide, and anesthetic vapors to patients during surgery. Key components include connections to hospital gas lines, reserve gas cylinders, flow meters, vaporizers, and monitors. Modern machines also integrate ventilators and monitors for vital signs. Anesthesia machines allow anesthesiologists to safely induce and maintain general anesthesia, while carefully controlling gas concentrations and supporting patient breathing.
Operating theater books contain detailed records of surgical procedures and patients, which are used for planning and ordering supplies. These confidential records provide information on patient care journeys. Traditional paper-based operating theater books included patient names, ages, addresses, diagnoses, attending medical staff, dates and times of operations, and anesthetics used. While some organizations still use handwritten records, computer-based systems provide more secure, efficient access to records for medical staff in emergencies. Computer networks allow records to be easily accessed from any location in the hospital and save medical personnel time retrieving files. Computerized records also improve patient care, safety, and decision making.
The document discusses the management and design considerations for an operation theatre (OT) suite in a hospital. It covers key aspects like location, number of operating rooms, zoning, equipment, lighting, ventilation, safety hazards, emergency equipment and patient protection protocols. The OT suite needs to be carefully planned and designed to minimize infection risks through segregated traffic flow and maintaining different cleanliness zones, from protective to sterile areas.
this is a very brief guide for medical students and interns who will be going in the o.t for the first time. this presentation includes almost all aspects of o.t.
This document discusses sterilization and maintaining a sterile environment in operating theatres. It covers the history of sterilization practices dating back to Joseph Lister in the 1800s. It also discusses the importance of proper ventilation, sources of infectious agents, and different ventilation systems used in operating rooms. Further, it summarizes various sterilization methods like fumigation using formaldehyde and newer non-toxic compounds. The roles and best practices of the central sterile supply department and microbiology department are also highlighted.
This chapter discusses point-of-use processing for medical devices, which involves sterilizing items immediately before use close to the patient care area. It defines flash sterilization as sterilizing unwrapped instruments in an emergency using a short sterilization cycle. The chapter reviews industry standards for flash sterilization from organizations like AAMI and AORN, which say it should only be used in certain situations. It also discusses using oxidative agents instead of heat for processing heat-sensitive devices at point of use.
Sterilization of ot & ot equipments pritamhavalprit
The document discusses various methods of sterilization and disinfection used in hospitals. It defines key terms and outlines the order of resistance of different microorganisms. Various sterilization techniques are described including steam sterilization, dry heat sterilization, filtration, boiling and chemical sterilization using formaldehyde, alcohols, chlorine and other agents. Monitoring of sterilization is discussed including mechanical, biological and chemical indicators. Factors influencing sterilization such as concentration, temperature, and bioburden are also summarized.
This document discusses complex surgical instruments used in medical procedures. It provides an overview of powered surgical instruments, which can be electrically, pneumatically, or battery powered. These instruments are delicate and difficult to clean due to their complex internal mechanisms. The document outlines the multi-step process required to properly clean, disinfect, and sterilize powered instruments according to manufacturer guidelines. It also discusses endoscopic instruments, including flexible fiberoptic and rigid endoscopes. Endoscopes pose challenges for cleaning due to internal channels and crevices. The document stresses the importance of following regulations and guidelines as well as manufacturer instructions to safely reprocess these specialized medical devices.
The document discusses fire safety in operating theaters. It outlines the fire triad of fuel, oxidizer, and ignition source and emphasizes prevention by separating these elements. It describes typical fuels and ignition sources in operating rooms and recommendations to reduce risks, such as using laser-resistant endotracheal tubes. The document also covers management of different types of fires and the importance of safety education for appropriate responses to fires.
This document discusses cleaning and disinfection of medical instruments. It notes that cleaning is the first step to remove visible and non-visible soils before sterilization. Proper cleaning is important to reduce the microbial load and prevent transmission of infection. The document outlines the cleaning process and highlights the importance of promptly cleaning instruments after use to prevent bacterial growth. It also discusses the different classifications of medical devices based on infection risk and appropriate disinfection or sterilization methods.
A suction machine, also known as an aspirator, is a medical device that uses negative pressure to remove obstructions like mucus or blood from a patient's airway. It is commonly used when a patient is unable to clear their own airway due to lack of consciousness or an ongoing medical procedure. Portable suction machines are growing in popularity due to advances in technology that allow them to be lightweight and easy to transport. They consist of components like batteries, a vacuum pump, filters, tubing, and a collection canister.
Surgical draping procedures create a sterile field by carefully positioning sterile sheets and towels to isolate the surgical site and exposed instruments. Drapes must form an effective barrier against microorganisms while being resistant to fluids and abrasion. Both reusable and disposable drapes are used, with disposables reducing hazards of contamination but creating waste disposal issues. Specific drapes are used for different body areas like the perineum or extremities, with the goal being to properly isolate the surgical site while allowing access and movement as needed.
4.hazards of working in the operation roomHenok Eshetie
This document outlines various hazards faced by those working in operating theatres. It discusses pollution from anaesthetic agents which can cause health issues with chronic exposure. Biological hazards like infections from needlesticks or airborne pathogens are also a risk. Physical hazards include injuries from sharp objects, falls, fires or radiation. Electrical accidents are another danger, as are personal hazards such as stress, fatigue, or drug and alcohol abuse. A variety of precautions are recommended to minimize risks from these various hazards of working in operating rooms.
The document is about Mop and Instrument Count in OT. It appears to be a title and author attribution. In 3 sentences or less, the document provides a title for counting mops and instruments in an operating theater, and attributes the document to Riya Sanjay Baghele from Nagpur.
Behavioural Marketing & how to get your customers to love youJohn Watton
The World of Marketing is now more multi-channel dependent than ever. Find out how to better integrate your email, web, mobile and social media marketing to deliver outstanding ROI. And how a behavioural marketing approach can drive personalised, multi-channel experiences for your customers that ultimately means they'll love you to death.
This presentation looks at Behavioural Marketing and the simple journey you can follow to deliver a more personalised experience for your customers:
How to capture the things people do when they interact with your company across all channels (email, web, mobile, social, etc).
How to combine that data with what you already know about that person – the profile & preferences; or past behaviours.
The rules to apply to the data
How to use the rules to generate a personalised interaction and a multi–channel, multi-step relationship that delivers the most relevant customer experience for the individual.
Winning and nurturing leads in a web 2.0 environment; ShipServ and why conten...John Watton
Presentation I gave at a B2B Marketing Magazine seminar in November 2009 together with Stan from http://www.velocitypartners.co.uk/ and the subject of content marketing in lead generation
El documento resume los eventos más destacados del 2010 en Ecuador, incluyendo la reelección de Rafael Correa como presidente, la adopción de una nueva constitución, y la creación de una nueva asamblea nacional y corte constitucional.
The document describes several LED surgical light models from a company. The lights provide adjustable color temperature, cool light that does not dry out tissues, and various handles and controls to easily position and operate the lights. They are suitable for different types of surgeries and examination rooms.
Blogging as part of your content marketing strategyJohn Watton
Presentation giving at a B2B Marketing Seminar in London, April 2010. Shares my thoughts and experiences in blogging/social media/content marketing in the world of B2B.
This document discusses how sales techniques can be applied to job searching. It outlines that successful salespeople are able to bounce back from rejection by listening, understanding customer needs, offering solutions, and maintaining a positive outlook. These same skills are important for job seekers - knowing your own strengths and value, preparing thoroughly, following up on applications, and viewing rejections as opportunities to improve. The document recommends job seekers treat their job search like sales and have multiple options in progress.
Cabestan is an email marketing company founded in 1999 that has over 10 years of experience. They have offices in multiple countries to remain close to clients, and each client has a dedicated account manager. Cabestan offers import/export modules, automated data operations, double posting and web services to interact with hosted data. Their platform includes an HTML editor, personalization features, conditional formatting, broadcast capabilities, automated campaigns, and triggers. Cabestan also provides robust segmentation, statistics reporting and analytics to optimize campaigns.
Este documento describe la historia de una familia a través de las generaciones, comenzando con los abuelos en 1979 y continuando con sus hijos, nietos y el crecimiento de la familia a lo largo de los años. Se mencionan los nombres de los miembros de la familia Rojas Martínez y Rojas Vergara Martínez Ortiz así como sus hijos y nietos.
The document discusses how marketing is changing from a focus on facts and segmentation to emotions and personalization. It notes that people are exposed to thousands of marketing messages daily across many channels. It advocates using data to deliver personalized, relevant experiences tailored to each individual consumer in order to improve conversion rates, sales, and engagement. The presentation argues that successful marketing in the future will require understanding consumers on an emotional level and combining emotions with science in communications.
Cabestan is a SaaS multi-channel marketing campaigns management platform founded in 1998 with 60 employees. It has strong roots in email and SMS sending and can manage acquisition and client loyalty needs through personalized and automated marketing campaigns across multiple channels including email, mobile, mail and social networks. Cabestan has over 350 clients worldwide across many industries and manages billions of messages sent annually.
This document summarizes the key metrics and offerings of three Canadian contest websites - Toutacoup, Wannawin, and Kadogagnant. It provides monthly page views, unique visitors and email list sizes for each site. It also outlines the demographic breakdown of users and various advertising and partnership opportunities including dedicated emails, display ads, home page branding, and contest creation/promotion options. Targeting capabilities are highlighted for each channel.
Cabestan's Mobile application push notification managementAnton Panaitesco
Cabestan's brand new feature allow marketers to handle their mobile application's push notifications from their Back-Office. By doing so, registered mobile app users can be linked to existing Database profiles and make it possible to use all of the available data for message personalisation or targeting pruposes
Identify How To Put In Place A Strategy To Source & Generate New Leads & Inte...John Watton
ShipServ is an e-marketplace connecting buyers and sellers of commercial ship supplies. This document outlines ShipServ's strategy to generate new leads and collaborate better with sales. It discusses establishing processes like defining marketing-qualified leads and lead scoring. Content is key, needing to save/make money or keep people employed. Metrics saw a 59% increase in visitors, 70% in page views, and a 400% increase in sales-ready leads passed to sales. The strategy focuses on collaboration, experimentation, and leaving a digital footprint.
This document provides information on induction lighting from Innovative Induction Lighting. It discusses the basic technology of induction lamps, how they work, and their benefits compared to other lighting types. Induction lamps have a very long lifespan of 100,000 hours and provide energy efficient, high quality light. The document promotes induction lighting as having the lowest total cost of ownership due to reduced energy and maintenance costs over the lifetime of the fixtures. It also provides details on retrofit kits that allow upgrading existing fixtures to induction lighting.
This document discusses induction lighting, which uses magnetic fields rather than electrodes to excite gases and produce light. Some key benefits include a 100,000 hour lifespan, high efficiency of 85+ lumens per watt, instant on capability, and minimal maintenance costs due to the long lifespan. Induction lighting can be controlled through wireless remote controls, wired systems, or motion sensors. Retrofit kits are also available to convert existing fixtures to induction.
The document discusses several light curing systems from Honle including the Bluepoint 4 curing system, Bluepoint Eco LED, LED Powerline AC/IC 820, LED Spot 100. These systems offer different wavelengths, intensities, irradiation widths, and lifetimes for curing applications. Contact information is provided for Mike Champeau and Kevin Heinsohn of Champeau Sourcing Solutions who are manufacturer's representatives for these products in Minnesota, as well as contact information for Tangent Industries, the corporate office.
The document describes several LED lighting modules from LumiFlex and SlimFlex that provide flexible, efficient LED lighting. The modules come in rolls up to 5 meters long for continuous lighting applications. They use high-quality Nichia LEDs and are available in standard color temperatures or tunable white versions. Customized solutions can also be developed and manufactured to specific requirements.
This document provides product information for a glare-free LED bollard luminaire suitable for illuminating floorspaces from low mounting heights, such as forecourts, gateways, and outdoor areas of public and private facilities. The luminaire has an aluminum alloy and stainless steel construction, safety glass, and a pure anodized aluminum reflector. It can be mounted on a foundation or anchorage unit and aligned around 360 degrees. Technical specifications include IP65 dust and water resistance, a 3000K or 4000K LED module, and a service life of over 50,000 hours at an ambient temperature up to 50°C.
www.ledlightworks.com.au
These LED (light emitting diode) panels are the perfect solution for businesses looking to replace their fluorescent tube assemblies with efficient, green and safe LED technology in a modern and versatile system.
The Highlight IIA projection console from Strong International provides a sturdy steel structure to mount various projector and sound equipment combinations. It includes features like precision reflectors, cooling systems, power supplies, and safety mechanisms to maximize light output and screen brightness during operation. The console is customizable with different power supply and equipment mounting options.
JERICHO OPHTHALMIC MULTISPOT GREEN LASER SYSTEM-532NMGovindarajanR5
Appa Ophthalmic Multispot Green Laser Jericho is designed with effective touch screen interface providing superior surgical treatment to retinal problems.
The document provides information about Litro Lighting, a wireless lighting technology introduced by Nikola Tesla in the 1800s. Litro lighting uses induction to transmit energy via magnetic fields, unlike fluorescent lights which use electrodes that degrade over time. Litro lights have a long lifespan of 100,000 hours and provide energy savings, maintenance savings, high light output, and improved lighting quality compared to traditional lighting systems. Specific Litro lighting product models are also described.
electrical luminaries and market surveysahil saifi
A luminaire is defined in Article 100 as “a complete lighting unit consisting of a lamp or lamps together with the parts designed to distribute the light, to position and protect the lamps and ballast (where applicable), and to connect the lamps to the power supply.” Since luminaires (lighting fixtures) were not previously defined before the 2002 NEC, this new definition is meant to cover all aspects of a lighting unit, including the lamps that actually provide the illumination, as well as internal and external parts necessary for the proper operation of the unit.
This document describes an LED track light product called the LLC-033B series. It has benefits like reduced energy consumption up to 80% and a cool light with no UV or IR rays. Key specifications include a power consumption of 15W or 20W, a beam angle range of 24-60 degrees, a color temperature of 2700K-5000K, a CRI over 90, and a lifespan of 50,000 hours. It has an aluminum base and is fully recyclable with no hazardous materials. It is IP44 rated and has an easy installation with no maintenance costs for years.
The document discusses an ArenaVision 403 luminaire that incorporates a renewed MHN-SA lamp, enabling tool-free lamp replacement. It is suitable for a new MHN-SA 2000 W lamp, which provides up to 15% more light than a comparable 1800 W lamp while maintaining excellent color characteristics. The 2000 W lamp is available in two versions, one meeting high CTV requirements and one providing a pleasing, natural color rendering and atmosphere.
Eco Lite Technologies - Manufacturers & Suppliers of LED ProductsVikram Jeet
Eco lite technologies is the manufacturers of led products like led bulbs, led lights, led street lights, led mr16, led down lights, led bay lights. Each products of us are passed through various electrical parameters like electrical, thermal, optical, etc. before reaching to the customers. You can view and purchase wide variety of led products through our website http://www.ecolitetechnologies.co.in
This document discusses various types of lighting technologies and their properties. It covers incandescent, fluorescent, high intensity discharge (HID), and emergency lighting. It provides information on spectral properties, luminous flux, luminous intensity, illuminance, efficacy, lamp types, ballasts, starters, advantages and disadvantages of each technology type. It also discusses lighting calculations, photometry, glare, distribution, and emergency evacuation lighting requirements and standards.
The LuxiGen platform provides high-flux density, directional LED lighting solutions for applications such as entertainment, architectural, interior, UV curing, infrared, and specialty lighting. It features individually addressable LED dies, high lumen packages, and secondary optics to create dynamic lighting experiences. The LuxiTunable series additionally enables dimming and color temperature tuning capabilities.
We have a fully independent/ educated & experienced TEAM for Marketing of our products. Our team is young blood with new & innovative thoughts.
Our team is working in all over India and other countries as well. We have largest team in India. The senior member set the marketing strategy in line with overall company objectives. We have a huge appearance on online portal. Our marketing department played a big role to establish our brand in market. We have a long experience to participate in various Medical Exhibitions in all over INDIA.Our team is expert to analyze the need of markets and inform to R & D Department for required updates in our products. This research helps us to identify the market opportunities.Our participations, online appearance & other activities helped us to become a reputed brand for medical equipment to the vendors. Many reputed magazines and Newspaper publish their editions with our products and technology updation.
The document discusses LED lamps as an energy efficient alternative to traditional lighting like halogen bulbs. It notes that LED lamps last much longer, use less power, and produce better quality light. The document then provides details on the Starsight LED 300, 1200, and 600 panel lights - including their specifications, pricing, and suitable applications. It concludes with a comparison of LED lamps to halogen lights and notes the advantages of LEDs like higher energy efficiency.
Led luks productcatalogue_summer2015 SPAIN is U-GO to LIGHT.- Hugo del Riego....U-GO to LIGHT
The best European quality for Outdoor/Indoor customized Lighting. Perfect fittings looking for Energy Saving, using New LED LUKS Lighting Modules into the Street Lighting old luminaires, Parking luminaires, and Offices.
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This document provides product information for the HiPanel T5 High Bay replacement LED fixture. It includes the company address and contact information, key product specifications like 100,000 hour LED life, up to 100 lm/W efficacy, and IP20 rating. It also provides dimensional drawings, part numbers, and illuminance charts for the various fixture sizes in the HiPanel product line.
The Aventrix LED module system from Ledrise is a highly efficient modular lighting system for urban, transportation, and industrial applications. The modules have industry-leading energy efficiency of up to 153 lm/W, produce luminous fluxes up to 7785 lumens, and feature high-power Nichia LEDs. The modules are available in different sizes and configurations that can be combined modularly. They produce uniform, high-quality white light and include precision optics to direct light only where needed, reducing energy losses and light pollution.
3.
Key Structure
• A new superior quality O.T. Light executed by a wireless Remote Control. This
Light provides the superior performance and is good for all kinds of
Surgery.
• Lights arms are made of Stainless Steel Fitting.
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Sterilizable handle has been provided in the middle of the dome.
• LED Display on the dome that helps the user to adjust the Intensity of Light
from 0 to 100 %.
Technical Constraints
Dome Head: 504 mm x 3
Halogen Bulbs: 24V x 150 W x 6 nos.
Light intensity at 1 mt: 2, 70,000 Lux
Height Adjustment: 978 mm
Dichoric Glass Reflector: 390 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
5. Key Structure
• This Light provides the superior performance and is good for all kinds of
Surgery.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
80,000 (± 10%).
• Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes,
due to the range of the color temp ‐ 4,200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome for regulating
the diameter of focus.
• Light intensity can be adjusted by the Digital Control Panel.
• Diffuser spreads the light uniformly. It protects the light and gives excellent
shadow reduction. It also reduces infrared radiation and enhances the light’s
appearance.
Technical Constraints
Dome Head: 515 mm x 3
Halogen Bulbs: 24V x 70 W x 9 nos.
Light intensity at 1 mt: 2,40,000 Lux
Height Adjustment: 1014 mm
Dichoric Glass Reflector: 200 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
7. Key Structure
• This Light provides the superior performance and is good for all kinds of
Surgery.
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Lights arms are made of Stainless Steel Fitting.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt Parabolic Reflector, which increases the Lux up to 1, 80,000 (± 10%).
• Heat absorbing& color correcting filter glasses.
Technical Constraints
Dome Head: 405 mm x 3
Halogen Bulbs: 24V x 150 W x 6 nos.
Light intensity at 1 mt: 1,80,000 Lux
Height Adjustment: 1014 mm
Parabolic Reflector: 355 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
9. Key Structure
• A New superior quality O.T. Light executed by a Remote Control. This Light
provides the superior performance and is good for all kinds of Surgery.
• Lights arms are made of Stainless Steel Fitting.
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
1, 80,000 (± 10%).
• LED Display that helps the user to adjust the Intensity of Light from 0 to 100%.
Technical Constraints
Dome Head: 504 mm x 2
Halogen Bulbs: 24V x 150 W x4 nos.
Light intensity at 1 mt: 1,80,000 Lux
Height Adjustment: 978 mm
Dichoric Glass Reflector: 390 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
11.
Key Structure
• This Light provides the superior performance and is good for all kinds of
Surgery.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
80,000 (± 10%).
• Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes, due to
the range of the color temp ‐ 4200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome for regulating
the focus.
• Light intensity can be adjusted by the Digital Control Panel. Diffuser spreads the
light uniformly. It protects the light and gives excellent shadow reduction. It also
reduces infrared radiation and enhances the light’s appearance.
Technical Constraints
Dome Head: 515 mm x 2
Halogen Bulbs: 24V x 70 W x 6 nos.
Light intensity at 1 mt: 1,60,000 Lux
Height Adjustment: 1014 mm
Dichoric Glass Reflector: 200 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
13. Key Structure
• The Compact light head with shadow reduction control makes this light suitable
for wide variety of procedures including the General Surgery.
• Every light head is equipped with two bulbs (the primary bulb and the back‐up
bulb). When the primary bulb fails, the back‐up bulb lights up automatically to
ensure continuous uninterrupted lighting throughout the case.
• Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes, due to
the range of the color temp ‐ 4,200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome in feather touch
moment.
• Digital Control Panel to increase or decrease the intensity of the light.
Technical Constraints
Dome Head: 465 mm x 2
Halogen Bulbs: 24V x 150 W x 4 nos.
Light intensity at 1 mt: 1,60,000 Lux
Height Adjustment: 1065 mm
Dichoric Glass Reflector: 365 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
15. Key Structure
• This Operation Reflector Lamp offers the illumination as compared to other
standard models.
• Halogen Lights suitable for Major as well as Minor Surgery, fully spring
balanced cool lights.
• Sterilizable handle has been provided in the middle of the dome for adjust the
focus.
• A Shadow less light is suitable for all sizes of Operation Theatres as it gives
maximum light output with minimum heat dissipation.
• Parabolic reflectors & color correcting filters.
Technical Constraints
Dome Head: 712 mm & 550 mm
Halogen Bulbs: 24V x 70 W x 4 nos.
Light intensity at 1 mt: 90,000 & 50,000 Lux
Height Adjustment: 714 mm & 912 mm
Parabolic Reflector: 180 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 3° ‐4° C
Control Unit: Transformer
17. Key Structure
• This Operation Reflector Lamp offers the illumination as compared to other
standard models.
• Halogen Lights suitable for Major as well as Minor Surgery, fully spring
balanced cool lights.
• Sterilizable handle has been provided in the middle of the dome for adjust the
focus.
• A Shadow less light is suitable for all sizes of Operation Theatres as it gives
maximum light output with minimum heat dissipation.
• Parabolic reflectors & color correcting filters.
Technical Constraints
Dome Head: 550 mm x 2
Halogen Bulbs: 24V x 70 W x 8 nos.
Light intensity at 1 mt: 1,00,000 Lux
Height Adjustment: 914 mm
Parabolic Reflector: 180 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
19. Key Structure
• The Light Head provides the superior performance and is good for all kinds of
surgeries. The compact light head with shadow reduction control makes this
light suitable for wide variety of procedures, including the General Surgery,
Micro Surgery, E.N.T., OB/GYN, Orthopedic and Cosmetic Surgery.
• A Shadow less light suitable for all sizes of Operation Theatres as it gives
maximum light output with minimum heat dissipation.
• Lights arms are made of Stainless Steel Fitting. The range of the color temp ‐
4,200 K ±300 as natural color tone
• The light equipped with the reserve light source, which is activated in case the
main light source brakes down.
• Sterilizable handle has been provided on the dome for easy movement.
Technical Constraints
Dome Head: 521 mm x 2
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 1,00,000 Lux
Height Adjustment: 1014 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
21. Key Structure
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Lights arms are made of Stainless Steel Fitting.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt Parabolic Reflector, which increases the Lux up to 1, 20,000 (± 10%).
• Heat absorbing& color correcting filtering glasses.
Technical Constraints
Dome Head: 405 mm x 2
Halogen Bulbs: 24V x 150 W x 4 nos.
Light intensity at 1 mt: 1,20,000 Lux
Height Adjustment: 1014 mm
Parabolic Reflector: 355 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
23. Key Structure
• A New superior quality O.T. Light executed by a Remote Control. This Light
provides the superior performance and is good for all kinds of Surgery.
• Lights arms are made of Stainless Steel Fitting.
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
90,000 (± 10%).
• LED Display that helps the user to adjust the Intensity of Light from 0 to 100%.
Technical Constraints
Dome Head: 504 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 90,000 Lux
Height Adjustment: 1078 mm
Dichoric Glass Reflector: 390mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
25. Key Structure
• This Light provides the superior performance and is good for all kinds of
Surgery.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
80,000 (± 10%).
• Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes, due to
the range of the color temp ‐ 4,200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome for regulating
the diameter of focus.
• Light intensity can be adjusted by the Digital Control Panel. Diffuser spreads
the light uniformly. It protects the light and gives excellent shadow reduction. It
also reduces infrared radiation and enhances the light’s appearance.
Technical Constraints
Dome Head: 515 mm
Halogen Bulbs: 24V x 70 W x 3 nos.
Light intensity at 1 mt: 80,000 Lux
Height Adjustment: 1014 mm
Dichoric Glass Reflector: 200 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
27. Key Structure
• The Compact light head with shadow reduction control makes this light suitable
for wide variety of procedures including the General Surgery.
• The light head is equipped with two bulbs (the primary bulb and the back‐up
bulb). When the primary bulb fails, the back‐up bulb lights up automatically to
ensure continuous uninterrupted lighting throughout the case.
• Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes, due to
the range of the color temp ‐ 4,200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome in feather touch
moment.
• Digital Control Panel to increase or decrease the intensity of the light.
Technical Constraints
Dome Head: 465 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 80,000 Lux
Height Adjustment: 1065 mm
Dichoric Glass Reflector: 365 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
29. Key Structure
• This Operation Reflector Lamp offers the illumination as compared to other
standard models.
• Halogen Lights suitable for Major as well as Minor Surgery, fully spring
balanced cool lights.
• Sterilizable handle has been provided in the middle of the dome for adjust the
focus.
• A Shadow less light is suitable for all sizes of Operation Theatres as it gives
maximum light output with minimum heat dissipation.
• Parabolic reflectors & color correcting filters.
Technical Constraints
Dome Head: 712 mm
Halogen Bulbs: 24V x 70 W x 7 nos.
Light intensity at 1 mt: 90,000 Lux
Height Adjustment: 714 mm
Parabolic Reflector: 180 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 3° ‐4° C
Control Unit: Transformer
31. Key Structure
• The light has daylight characters and can be adjusted as per the operation
requirements.
• Lights arms are made of Stainless Steel Fitting.
• The range of the color temp ‐ 4,200 K ±300 as natural color tone
• Detachable handle for simplistic sterilization.
• Parabolic reflectors & color correcting filters.
Technical Constraints
Dome Head: 550 mm
Halogen Bulbs: 24V x 70 W x 4 nos.
Light intensity at 1 mt: 50,000 Lux
Height Adjustment: 914 mm
Parabolic Reflector: 180 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
33. Key Structure
• The Light Head provides the superior performance and is good for all kinds of
surgeries. The compact light head with shadow reduction control makes this
light suitable for wide variety of procedures, including the General Surgery,
Micro Surgery, E.N.T., OB/GYN, Orthopedic and Cosmetic Surgery.
• A Shadow less light suitable for all sizes of Operation Theatres as it gives
maximum light output with minimum heat dissipation.
• Lights arms are made of Stainless Steel Fitting. The range of the color temp ‐
4,200 K ±300 as natural color tone
• The light equipped with the reserve light source, which is activated in case the
main light source brakes down.
• Sterilizable handle has been provided on the dome for easy movement.
Technical Constraints
Dome Head: 521 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 50,000 Lux
Height Adjustment: 1014 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
35. Key Structure
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Lights arms are made of Stainless Steel Fitting.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt Parabolic Reflector, which increases the Lux up to 60,000 (± 10%).
• Heat absorbing& color correcting filtering glasses.
Technical Constraints
Dome Head: 405 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 60,000 Lux
Height Adjustment: 1014 mm
Parabolic Reflector: 355 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
37. Key Structure
• A New superior quality O.T. Light executed by a Remote Control. This Light
provides the superior performance and is good for all kinds of Surgery.
• This light is fitted at 7 – 9 ft height. Lights arms are made of Stainless Steel
Fitting.
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
90,000 (± 10%).
• LED Display that helps the user to adjust the Intensity of Light from 0 to 100%.
Technical Constraints
Dome Head: 504 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 90,000 Lux
Height Adjustment: 1078 mm
Dichoric Glass Reflector: 390mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
39.
Key Structure
• This Light provides the superior performance and is good for all kinds of
Surgery.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
80,000 (± 10%).
• Lights arms are made of Stainless Steel Fitting.
• This light is fitted at 7 – 9 ft height.
• Sterilizable handle has been provided in the middle of the dome for regulating
the diameter of focus.
• Light intensity can be adjusted by the Digital Control Panel. Diffuser spreads
the light uniformly. It protects the light and gives excellent shadow reduction. It
also reduces infrared radiation and enhances the light’s appearance.
Technical Constraints
Dome Head: 515 mm
Halogen Bulbs: 24V x 70 W x 3 nos.
Light intensity at 1 mt: 80,000 Lux
Height Adjustment: 1014 mm
Dichoric Glass Reflector: 200 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
41. Key Structure
• The Compact light head with shadow reduction control makes this light suitable
for wide variety of procedures including the General Surgery.
• Every light head is equipped with two bulbs (the primary bulb and the back‐up
bulb). When the primary bulb fails, the back‐up bulb lights up automatically to
ensure continuous uninterrupted lighting throughout the case.
• This light is fitted at 7‐9 ft height. Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes, due to
the range of the color temp ‐ 4,200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome in feather touch
moment.
• Digital Control Panel to increase or decrease the intensity of the light.
Technical Constraints
Dome Head: 465 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 80,000 Lux
Height Adjustment: 1065 mm
Dichoric Glass Reflector: 365 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
43. Key Structure
• A New superior quality O.T. Light executed by a Remote Control. This Light
provides the superior performance and is good for all kinds of Surgery.
• Lights arms are made of Stainless Steel Fitting.
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to 1,
00,000 (± 10%).
• LED Display that helps the user to adjust the Intensity of Light from 0 to 100%.
Technical Constraints
Dome Head: 504 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 90,000 Lux
Height Adjustment: 1078 mm
Dichoric Glass Reflector: 390mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
45. Key Structure
• This Light provides the superior performance and is good for all kinds of
Surgery.
• Inbuilt is an Imported Dichoric Glass Reflector, which increases the Lux up to
80,000 (± 10%).
• Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes, due to
the range of the color temp ‐ 4,200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome for regulating
the diameter of focus.
• Light intensity can be adjusted by the Digital Control Panel. Diffuser spreads
the light uniformly. It protects the light and gives excellent shadow reduction. It
also reduces infrared radiation and enhances the light’s appearance.
Technical Constraints
Dome Head: 515 mm
Halogen Bulbs: 24V x 70 W x 3 nos.
Light intensity at 1 mt: 80,000 Lux
Height Adjustment: 1014 mm
Dichoric Glass Reflector: 200 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
47. Key Structure
• The Compact light head with shadow reduction control makes this light suitable
for wide variety of procedures including the General Surgery.
• Every light head is equipped with two bulbs (the primary bulb and the back‐up
bulb). When the primary bulb fails, the back‐up bulb lights up automatically to
ensure continuous uninterrupted lighting throughout the case.
• Lights arms are made of Stainless Steel Fitting.
• During the long time operation, there is no fatigued feeling to the eyes, due to
the range of the color temp ‐ 4,200 K ±300 as natural color tone
• Sterilizable handle has been provided in the middle of the dome in feather touch
moment.
• Digital Control Panel to increase or decrease the intensity of the light.
Technical Constraints
Dome Head: 465 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 80,000 Lux
Height Adjustment: 1065 mm
Dichoric Glass Reflector: 365 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: SMPS
49. Key Structure
• The light has daylight characters and can be adjusted as per the operation
requirements.
• Lights arms are made of Stainless Steel Fitting.
• The range of the color temp ‐ 4,200 K ±300 as natural color tone
• Detachable handle for simplistic sterilization.
• Parabolic reflectors & color correcting filters.
Technical Constraints
Dome Head: 550 mm
Halogen Bulbs: 24V x 70 W x 4 nos.
Light intensity at 1 mt: 50,000 Lux
Height Adjustment: 914 mm
Parabolic Reflector: 180 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
51. Key Structure
• The Light Head provides the superior performance and is good for all kinds of
surgeries. The compact light head with shadow reduction control makes this
light suitable for wide variety of procedures, including the General Surgery,
Micro Surgery, E.N.T., OB/GYN, Orthopedic and Cosmetic Surgery.
• A Shadow less light suitable for all sizes of Operation Theatres as it gives
maximum light output with minimum heat dissipation.
• Lights arms are made of Stainless Steel Fitting. The range of the color temp ‐
4,200 K ±300 as natural color tone
• The light equipped with the reserve light source, which is activated in case the
main light source brakes down.
• Sterilizable handle has been provided on the dome for easy movement.
Technical Constraints
Dome Head: 521 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 50,000 Lux
Height Adjustment: 1014 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
53. Key Structure
• The light is equipped with the reserve light source, which is activated
automatically in case the main light source brakes down.
• Lights arms are made of Stainless Steel Fitting.
• Sterilizable handle has been provided in the middle of the dome.
• Inbuilt Parabolic Reflector, which increases the Lux up to 60,000 (± 10%).
• Heat absorbing& color correcting filtering glasses.
Technical Constraints
Dome Head: 405 mm
Halogen Bulbs: 24V x 150 W x 2 nos.
Light intensity at 1 mt: 60,000 Lux
Height Adjustment: 1014 mm
Parabolic Reflector: 355 mm
Color Temperature: 4200 K ±300
Temp rise in field (1 mt): 2° ‐3° C
Control Unit: Transformer
54.
Corp. Office Factory
5, Avtar Enclave, Hanuman Gate, Circular Road
Paschim Vihar, Rohtak Ring Road Bhiwani, Haryana, India, 127021
New Delhi, India – 110063
Tele: 91‐11‐45545258 / 238 Tele: 91‐1664‐247965, 255078
Fax: 91‐11‐45545259
Mail: info@meditech‐india.com
Web: www.meditech‐india.com
www.meditechindia.in
www.meditechindia.net