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Fluke Biomedical and Raysafe are committed to giving back to the communities in which our businesses operate, providing help when natural disasters strike.
Get an extra cable kit with your QA-ES III electrosurgery analyzer purchase at no additional charge.
Learn from experts how they have increased productivity with the automation of tests, electronic documentation of procedures, and Fluke Biomedical’s workflow software.
The benefits of an integrated approach to drive standardization are:
• No data entry
• Faster on-boarding
• Decrease human error
• Increase efficiency running electrical safety tests
Download and try OneQA for free:
https://www.flukebiomedical.com/oneqa
Educating radiation clinicians and medical staff on their ability to protect themselves as they face radiation exposure in their daily lives is key to their safety.
Video guide on how to measure with the RaySafe X2 CT Sensor. Subtitles in several languages.
The X2 MAM sensor possesses state-of-the-art precision in dose and HVL that enables the userto obtain important readings without any pre-knowledge of the mammography machine. Just connect the sensor and immediately measure without any selection of beam quality. If kVp readings are required, a Quick Setting menu with beam qualities is available, just one swipe away. Thanks to its Active Compensation technology the X2 MAM sensor is insensitive to variations in filter thicknesses and tube aging effects.
Video guide on the basics of the X2 View software. Subtitles in several languages.
Video guide on how to measure with the RaySafe X2 R/F Sensor. Subtitles in English.
You should be committed to incorporating ALARA into your daily work routine to reduce radiation exposure. As technology advances and increasingly sophisticated techniques are used it is hard to keep up. Learn more about this important topic and how the RaySafe i3 can help.
The X2 MAM sensor possesses state-of-the-art precision in dose and HVL that enables the user to obtain important readings without any pre-knowledge of the mammography machine. Just connect the sensor and immediately measure without any selection of beam quality. If kVp readings are required, a Quick Setting menu with beam qualities is available, just one swipe away. Thanks to its Active Compensation technology the X2 MAM sensor is insensitive to variations in filter thicknesses and tube aging effects.
Watch the radiation survey meter product demonstration video to learn more about this versatile product designed to keep up with you.
The X2 MAM sensor possesses state-of-the-art precision in dose and HVL that enables the userto obtain important readings without any pre-knowledge of the mammography machine. Just connect the sensor and immediately measure without any selection of beam quality. If kVp readings are required, a Quick Setting menu with beam qualities is available, just one swipe away. Thanks to its Active Compensation technology the X2 MAM sensor is insensitive to variations in filter thicknesses and tube aging effects. The X2 MAM sensor, with its unique stacked sensor technology, prevents the influences of heel effects on the measurements. What's more, it can be used on all mammographic applications including scanning tomosynthesis. The X2 MAM sensor is capable of measuring all radiological parameters such as dose, dose rate, kVp, HVL, exposure time, pulses, pulse rate and dose/pulse -- in one exposure. For added ease of use, waveforms of kV and dose rate can be analyzed directly on the base unit.
Instructional video demonstration on how to position the sensor with the RaySafe FlexiStand.
Video guide on how to position a DENT or R/F sensor on a panoramic dental X-ray machine. Subtitles in English.
There are things that we can do on X-ray equipment that will ultimately allow us to try to reduce our dose or reduce the amount of scattered radiation going through the room.
Video guide on how to set up the RaySafe X2 system and start measuring on X-ray equipment. Subtitles in several languages.
The RaySafe 452 is a powerful survey meter that measures ionizing radiation in a wide variety of applications such as finding spilled isotopes, measuring scattered radiation from X-ray machines, and linear accelerators.
Instruction video for RaySafe 452 from Fluke Biomedical. Learn how the lids and measure quantities work.
Instruction video for RaySafe 452 from Fluke Biomedical. A walk-through of the instrument settings.
Instruction video for RaySafe 452 from Fluke Biomedical. Learn how to store measurements and how to view the stored measurements.
Instruction video for RaySafe 452 from Fluke Biomedical. Learn how to work with RaySafe 452 connected to a computer running RaySafe View.
Tired of carrying around multiple survey meters?
If you are measuring radiation in multiple applications, we bet you’re tired of carrying 2, 3, 4 or more survey meters. What a hassle! Plus, it is expensive to buy and maintain that many meters, to say nothing of having to learn them all. We understand your frustration and want to help. The new RaySafe 452 Radiation Survey Meter is the tool you need.
Watch the radiation survey meter product demonstration video to learn more about this versatile product designed to keep up with you.
Learn about the RaySafe 452 Radiation Survey meter, the different applications it can be used for, and see how our LANDAUER physicist uses the 452 on the job.
Get a glimpse of the shape of your radiation measurement future.
Video guide on how to use X2 view to send data to excel while doing measurements with the RaySafe X2. Subtitles in several languages.
You should be committed to incorporating ALARA into your daily work routine to reduce radiation exposure. As technology advances and increasingly sophisticated techniques are used it is hard to keep up. Learn more about this important topic and how the RaySafe i3 can help.
Business Development Manager, Ed Brand, explains the differences between the Victoreen 4521P and RaySafe 452.
Video guide on how to measure with the RaySafe X2 CT Sensor. Subtitles in several languages.
The X2 MAM sensor possesses state-of-the-art precision in dose and HVL that enables the user to obtain important readings without any pre-knowledge of the mammography machine. Just connect the sensor and immediately measure without any selection of beam quality. If kVp readings are required, a Quick Setting menu with beam qualities is available, just one swipe away. Thanks to its Active Compensation technology the X2 MAM sensor is insensitive to variations in filter thicknesses and tube aging effects.
Get a sneak-peek into the focus, fun and personal passion each team member brings to a RaySafe product from the conceptual stage through shipping it out the door to you.
The RaySafe 452 is a powerful survey meter that measures ionizing radiation in a wide variety of applications such as finding spilled isotopes, measuring scattered radiation from X-ray machines, and linear accelerators.
Instruction video for RaySafe 452 from Fluke Biomedical. Learn how the lids and measure quantities work.
Instruction video for RaySafe 452 from Fluke Biomedical. A walk-through of the instrument settings.
Instruction video for RaySafe 452 from Fluke Biomedical. Learn how to store measurements and how to view the stored measurements.
Instruction video for RaySafe 452 from Fluke Biomedical. Learn how to work with RaySafe 452 connected to a computer running RaySafe View.
Tired of carrying around multiple survey meters?
If you are measuring radiation in multiple applications, we bet you’re tired of carrying 2, 3, 4 or more survey meters. What a hassle! Plus, it is expensive to buy and maintain that many meters, to say nothing of having to learn them all. We understand your frustration and want to help. The new RaySafe 452 Radiation Survey Meter is the tool you need.
Watch the radiation survey meter product demonstration video to learn more about this versatile product designed to keep up with you.
Learn about the RaySafe 452 Radiation Survey meter, the different applications it can be used for, and see how our LANDAUER physicist uses the 452 on the job.
Get a glimpse of the shape of your radiation measurement future.
The X2 MAM sensor possesses state-of-the-art precision in dose and HVL that enables the userto obtain important readings without any pre-knowledge of the mammography machine. Just connect the sensor and immediately measure without any selection of beam quality. If kVp readings are required, a Quick Setting menu with beam qualities is available, just one swipe away. Thanks to its Active Compensation technology the X2 MAM sensor is insensitive to variations in filter thicknesses and tube aging effects.
The X2 MAM sensor possesses state-of-the-art precision in dose and HVL that enables the userto obtain important readings without any pre-knowledge of the mammography machine. Just connect the sensor and immediately measure without any selection of beam quality. If kVp readings are required, a Quick Setting menu with beam qualities is available, just one swipe away. Thanks to its Active Compensation technology the X2 MAM sensor is insensitive to variations in filter thicknesses and tube aging effects. The X2 MAM sensor, with its unique stacked sensor technology, prevents the influences of heel effects on the measurements. What's more, it can be used on all mammographic applications including scanning tomosynthesis. The X2 MAM sensor is capable of measuring all radiological parameters such as dose, dose rate, kVp, HVL, exposure time, pulses, pulse rate and dose/pulse -- in one exposure. For added ease of use, waveforms of kV and dose rate can be analyzed directly on the base unit.
Instructional video demonstration on how to position the sensor with the RaySafe FlexiStand.
Video guide on how to position a DENT or R/F sensor on a panoramic dental X-ray machine. Subtitles in English.
RaySafe X2 Solo Dent makes sensor positioning easier than ever on a dental panorama X-ray machine. With its minimal setup time, acquiring your first exposure takes less than one minute. The intuitive user interface and built-in intelligence mean that the user will be able to focus on interpreting the measured data instead of focusing on how to obtain data. Ease-of-use saves time, but most importantly, it minimizes the risk of costly errors that potentially could lead to re-visits to labs already checked.
Video guide on the basics of the X2 View software. Subtitles in several languages.
Hannes Hultgren, PhD, RaySafe System Architect R & D, discusses the radiation we are exposed to in our daily lives:
• the type of radiation
• the intensity of radiation
• where it is
Watch the video now to see examples of where we’re exposed to radiation – even when eating a banana.
There are things that we can do on X-ray equipment that will ultimately allow us to try to reduce our dose or reduce the amount of scattered radiation going through the room.
We know our product can help you, and to make it easier to experience the difference. We’re offering a 15% discount through the end of the year, with every RaySafe 452 Radiation Survey Meter purchase when you trade in an old unit from any manufacturer.
Video guide on how to measure with the RaySafe X2 R/F Sensor. Subtitles in English.
Video guide on how to navigate the RaySafe X2 base unit. Subtitles in several languages.
Video guide on how to use X2 view to send data to excel while doing measurements with the RaySafe X2. Subtitles in several languages.
Video guide on how to set up the RaySafe X2 system and start measuring on X-ray equipment. Subtitles in several languages.
Video guide on how to set up the flexi stand to use with the RaySafe X2 system. Subtitles in several languages.
Automated medical device electrical safety testing with the Fluke Biomedical ESA612 Electrical Safety Analyzer.
Performing automated electrical safety testing on medical devices using the innovating ESA620 Electrical Safety Analyzer + Ansur test automation software.
Multifunction Defibrillator Testing and Troubleshooting Fast. Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
The Impulse 7000DP defibrillator analyzer ensures proper operation and ultimate performance of critical life-support cardiac-resuscitation equipment
Introducing the SigmaPace 1000 External Pacemaker Analyzer.
The SigmaPace™ 1000 is a powerful handheld tool with a comprehensive range of test suites, measurement algorithms and test loads – as specified by the external pacemaker manufacturers – to fulfill your testing requirements both quickly and efficiently.
View a variety of test devices available from Fluke Biomedical for various measurements and functional testing of Defibrillator parameters and cardiac-related patient simulation.
Automated medical device electrical safety testing with the Fluke Biomedical ESA612 Electrical Safety Analyzer.
Performing automated electrical safety testing on medical devices using the innovating ESA620 Electrical Safety Analyzer + Ansur test automation software.
Learn how to customize the prebuilt on-board test automation in the ESA614 Electrical Safety Analyzer for the LifePak 20 Defibrillator.
In this video, you will learn about conducting an IEC 62353 test using the ESA615 on a Lifepak 20 defibrillator.
In the video we’ll cover:
• How to set up a custom auto sequence that will allow you to set up a custom test for a particular piece of equipment and save it for others to use
• How to efficiently set up the test, including interconnect
• Using a keyboard
Biomedical Equipment Technicians and Fluke Biomedical: improving the quality of global health while reducing the cost of healthcare today.
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
On-board test automation in a portable analyzer allows healthcare professionals safe, fast testing. The ESA614 Electrical Safety Equipment Analyzer helps you do simple testing or comprehensive analysis.
On-board test automation in a portable analyzer allows healthcare professionals safe, fast testing. The ESA 614 Electrical Safety Equipment Analyzer helps you do simple testing or comprehensive analysis.
- Test to NFPA 99 or ANSI/AAMI ES-1, the prevalent standards in the US
- Ensure all required test steps are executed correctly with onboard automated testing
- Test with confidence using a device that is manufactured according to ISO 13485, and FDA compliant from a trusted partner
Available in the United States only
There are more and more devices in the hospital that require testing. This is a quick solution to device management and tracking.
Now you can print labels that you can place on your devices under test in 4 easy steps.
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
You can print labels to place on medical devices to keep track of inspections and preventative maintenance. You can also print out complete test results. Both features work with ZPL compatible printers.
Today, biomedical professionals, field service, and other medical personnel must meet increasing regulatory guidelines, higher quality standards, and rapid technological growth while performing their work faster and more efficiently than ever.
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
Perform an electrical safety test on an MRI in 10 easy steps.
Learn how to test leakage on an ultrasound probe with the Fluke Biomedical ULT 800 and ESA 612.
In this video, we’re going to conclude the functional testing with Checking High-Frequency Leakage Current. This video will go step by step including test setup, test settings, which cables to use and how to interconnect. The procedures covered include:
• Checking Monopolar High-Frequency Leakage Current
• Checking Patient Return High-Frequency Leakage Current
• Checking Bipolar High-Frequency Leakage Current
• Checking LigaSure/Bipolar High-Frequency Leakage Current
In this video, we’re going to pick up with testing Bipolar Energy Channel Output. This video will go step by step including test setup, test settings, which cables to use and how to interconnect. The procedures covered include:
• Testing Bipolar Energy Channel Output
• Testing LigaSure/Bipolar output
In this video, we’re going to cover Verifying Cross-Coupling. This video will go step by step including test setup, test settings, which cables to use and how to interconnect. The procedures covered include:
• Mono 1 Current
• Mono 2 Current
• Bipolar Current
• LigaSure/Bipolar Current
In this video, we’re starting with the Power Up Check through testing the monopolar power output. This video will go step by step, including test setup, test setting, which cables to use and how to interconnect. The procedure covered include:
• System Self-Test
• Verifying the Audio
• CQM testing
• Setting up to verify the power output
• Testing the Monopolar power output
In this video, we will demonstrate interconnect and output verification of a Covidien FT10 using the Fluke Biomedical QA-ES III Electrosurgical Analyzer. All accessories used in this video are included with the QA-ES III.
Reach out for a complimentary demo or pricing information.
Toll-Free (US): (800) 850-4608
In this video, we will demonstrate interconnect and output verification of a Covidien FT10 using the Fluke Biomedical QA-ES III Electrosurgical Analyzer.
Power distribution: Tests impedance-sensing circuitry in “power guarantee functions in new-generation ESU. Applicable parameters – power, current, peak-to-peak voltage (closed load only) and crest factor – can easily be observed during the automatic, sequential output energy measurements.
Depend on the QA-ES III Electrosurgical Analyzer for complete ESU preventive maintenance, and safety testing of all critical functions. Collect all measurements including vessel sealing, contact quality monitor (CQM), high frequency (HF) leak-age and output power distribution in single or continuous mode.
Step 1: Inspect the System and Accessories
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 10 - Safety Testing in Accordance with IEC601
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 2 - Inspecting the Internal Components
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 3 - Test the System
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 4: Verify REM Function
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 5 - Verify Autobipolar Mode
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 6 - Verify Cross-Coupling
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 7 - Confirm Power Delivery at Receptacle
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 8 - Verifying Power Output
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 9 - Checking High-Frequency Leakage Current
Review the entire series to learn more about preventative maintenance using the QA-ES III.
The QA-ES II provides connections and load configurations to measure HF leakage from both grounded and isolated equipment.
Power distribution: Tests impedance-sensing circuitry in “power guarantee functions in new-generation ESU. Applicable parameters – power, current, peak-to-peak voltage (closed load only) and crest factor – can easily be observed during the automatic, sequential output energy measurements.
Collect all measurements including vessel sealing, contact quality monitor (CQM), high frequency (HF) leakage and output power distribution in single or continuous mode. The QA-ES III has all hardware and software needed for complete testing, so you don’t need to carry additional accessories or cables.
See how the QA-ES III Electrosurgical Analyzer provides the functionality you need for verifying the performance and safety of electrosurgical units.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
Need to talk to an expert?
Click here: https://bit.ly/2KHVj9n
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
Did you know?
Incidents involving anesthesia delivery have improved over the last several years. However, nearly one-third of the reported cases could have been prevented by correctly performing pre-anesthesia machine checks. [1]
Fluke Biomedical provides the equipment to perform correct, complete anesthesia machine preventative maintenance.
[1] Perioperative Medicine, October 2013 “Patient Injuries from Anesthesia Gas Delivery Equipment: A Closed Claims Update”
Justin Ross shows how to measure gas flow with a Fluke Biomedical VT305 Gas Flow Analyzer
Justin Ross shows how to calibrate gas flow using a Fluke Biomedical VT 305
Accurately and reliably conduct in-depth testing of gas flow medical equipment, especially devices requiring ultra-low flow and ultra-low pressure measurements, including neonatal, mechanical and high-frequency ventilators.
Reduce setup time by configuring your Profiles. 20 customizable profiles can be used to configure your VT650 or VT900 to show ONLY the parameters that you need in order to complete preventative maintenance. Once you configure units, test parameters, gas type, correction mode, breath detection, etc., you can reduce 90% of future device setup time.
Ensure traceability by using Test IDs. When you setup Test IDs on your VT650 or VT900, you are able to record test data to one report tied to the Asset ID. This data can later be exported from the onboard memory and easily uploaded to your PC or CMMS.
The new VT650 and VT900 Gas Flow Analyzers from Fluke Biomedical are packed with features for those who need portable, on-the-go testing. You can test all types of ventilator and respiratory equipment; weighing in at 3.6 lbs., they’re lightweight and portable; all inclusive, with no extra modules required; and the large 7” touchscreen is easy to read up to 6’. Plus, the VT900 offers ultra-low flow and ultra-low pressure testing.
With the addition of the new VT650 and VT900, Fluke Biomedical gas flow analyzers offer the highest accuracy on the market for testing gas flow and respiratory medical equipment, including all types of ventilators, flow meters, endoscopic insufflators, suction devices, pressure gauges and anesthesia machines in which the highest accuracy of low volume and pressure is crucial.
In this video series learn how to use the VT900A + VAPOR run a generalized PM/efficacy test procedure on an anesthesia delivery system. Specifically the respiratory support functions on the anesthesia delivery system.
In this video series learn how to use the VT900A + VAPOR run a generalized PM/efficacy test procedure on an anesthesia delivery system. Specifically the vaporizer on the anesthesia delivery system.
VT900A + VAPOR Gas Flow Analyzer and Anesthesia Tester
Portable and intuitive-to-use, the INCU II Incubator/Radiant Warmer Analyzer simplifies testing and verifying the performance of baby incubators, transport incubators, and radiant warmers.
Reach out for a complimentary demo or pricing information.
Toll-Free (US): (800) 850-4608
To learn more, visit us at:
http://www.flukebiomedical.com/INCU-II
*Wireless capabilities not available in all countries. Ask your distributor for more details.
Automated medical device electrical safety testing with the Fluke Biomedical ESA612 Electrical Safety Analyzer.
Performing automated electrical safety testing on medical devices using the innovating ESA620 Electrical Safety Analyzer + Ansur test automation software.
Learn how to customize the prebuilt on-board test automation in the ESA614 Electrical Safety Analyzer for the LifePak 20 Defibrillator.
In this video, you will learn about conducting an IEC 62353 test using the ESA615 on a Lifepak 20 defibrillator.
In the video we’ll cover:
• How to set up a custom auto sequence that will allow you to set up a custom test for a particular piece of equipment and save it for others to use
• How to efficiently set up the test, including interconnect
• Using a keyboard
Biomedical Equipment Technicians and Fluke Biomedical: improving the quality of global health while reducing the cost of healthcare today.
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
On-board test automation in a portable analyzer allows healthcare professionals safe, fast testing. The ESA614 Electrical Safety Equipment Analyzer helps you do simple testing or comprehensive analysis.
On-board test automation in a portable analyzer allows healthcare professionals safe, fast testing. The ESA 614 Electrical Safety Equipment Analyzer helps you do simple testing or comprehensive analysis.
- Test to NFPA 99 or ANSI/AAMI ES-1, the prevalent standards in the US
- Ensure all required test steps are executed correctly with onboard automated testing
- Test with confidence using a device that is manufactured according to ISO 13485, and FDA compliant from a trusted partner
Available in the United States only
There are more and more devices in the hospital that require testing. This is a quick solution to device management and tracking.
Now you can print labels that you can place on your devices under test in 4 easy steps.
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
You can print labels to place on medical devices to keep track of inspections and preventative maintenance. You can also print out complete test results. Both features work with ZPL compatible printers.
Today, biomedical professionals, field service, and other medical personnel must meet increasing regulatory guidelines, higher quality standards, and rapid technological growth while performing their work faster and more efficiently than ever.
Did you know?
Incidents involving anesthesia delivery have improved over the last several years. However, nearly one-third of the reported cases could have been prevented by correctly performing pre-anesthesia machine checks. [1]
Fluke Biomedical provides the equipment to perform correct, complete anesthesia machine preventative maintenance.
[1] Perioperative Medicine, October 2013 “Patient Injuries from Anesthesia Gas Delivery Equipment: A Closed Claims Update”
Fluke Biomedical's show magician entertains at the AAMI Conference and Expo in Tampa, Florida, June 2010
In this video, we’re going to conclude the functional testing with Checking High-Frequency Leakage Current. This video will go step by step including test setup, test settings, which cables to use and how to interconnect. The procedures covered include:
• Checking Monopolar High-Frequency Leakage Current
• Checking Patient Return High-Frequency Leakage Current
• Checking Bipolar High-Frequency Leakage Current
• Checking LigaSure/Bipolar High-Frequency Leakage Current
In this video, we’re going to pick up with testing Bipolar Energy Channel Output. This video will go step by step including test setup, test settings, which cables to use and how to interconnect. The procedures covered include:
• Testing Bipolar Energy Channel Output
• Testing LigaSure/Bipolar output
In this video, we’re going to cover Verifying Cross-Coupling. This video will go step by step including test setup, test settings, which cables to use and how to interconnect. The procedures covered include:
• Mono 1 Current
• Mono 2 Current
• Bipolar Current
• LigaSure/Bipolar Current
In this video, we’re starting with the Power Up Check through testing the monopolar power output. This video will go step by step, including test setup, test setting, which cables to use and how to interconnect. The procedure covered include:
• System Self-Test
• Verifying the Audio
• CQM testing
• Setting up to verify the power output
• Testing the Monopolar power output
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
Justin Ross shows how to measure gas flow with a Fluke Biomedical VT305 Gas Flow Analyzer
Multifunction Defibrillator Testing and Troubleshooting Fast. Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
The Impulse 7000DP defibrillator analyzer ensures proper operation and ultimate performance of critical life-support cardiac-resuscitation equipment
Portable and intuitive-to-use, the INCU II Incubator/Radiant Warmer Analyzer simplifies testing and verifying the performance of baby incubators, transport incubators, and radiant warmers.
Reach out for a complimentary demo or pricing information.
Toll-Free (US): (800) 850-4608
To learn more, visit us at:
http://www.flukebiomedical.com/INCU-II
*Wireless capabilities not available in all countries. Ask your distributor for more details.
In this video, we will demonstrate interconnect and output verification of a Covidien FT10 using the Fluke Biomedical QA-ES III Electrosurgical Analyzer.
In this video, we will demonstrate interconnect and output verification of a Covidien FT10 using the Fluke Biomedical QA-ES III Electrosurgical Analyzer. All accessories used in this video are included with the QA-ES III.
Reach out for a complimentary demo or pricing information.
Toll-Free (US): (800) 850-4608
The ESA609 Electrical Safety Analyzer is a rugged, portable and easy-to-use analyzer designed for general electrical safety testing. Learn more at www.flukebiomedical.com/ESA609!
Introducing the SigmaPace 1000 External Pacemaker Analyzer.
The SigmaPace™ 1000 is a powerful handheld tool with a comprehensive range of test suites, measurement algorithms and test loads – as specified by the external pacemaker manufacturers – to fulfill your testing requirements both quickly and efficiently.
Justin Ross shows how to calibrate gas flow using a Fluke Biomedical VT 305
The automated ESA615 Electrical Safety Analyzer performs all primary electrical safety tests per the latest electrical safety standards. It also performs ECG simulation and point-to-point voltage, leakage and resistance tests.
Perform an electrical safety test on an MRI in 10 easy steps.
We recently launched our new website last month. This new site brings our web experience a step closer to what is expected by customers navigating the web in today’s day and age.
Demonstration of the new ProSim 4 Vital Signs Simulator, troubleshooting patient monitors fast thanks to Fluke Biomedical innovation.
With the perfect balance of features, the ProSim 3 is engineered to test multiple parameters in a portable, compact package. See it in action to view its testing capabilities. Learn more at www.flukebiomedical.com.
Patient Monitor Testing and Troubleshooting Fast. Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
Get the ProSim 8 multifunction vital signs simulator to ensure your devices provide the ultimate in-patient safety. Reduce your testing time with this all-in-one tester; integrated auto-sequences, onboard memory and a 9-hour battery life allow you to test all day long. No extra modules are needed. Wireless PC communication, customized presets, barcode scanning, direct data capture and printing functions allow for maximum productivity.
The ProSim 8 patient simulator enables you to complete preventive maintenance testing with one device in less than five minutes
In-depth demonstration on how to test using the Fluke Biomedical ProSim 8 Vital Signs Patient Simulator
Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
Power distribution: Tests impedance-sensing circuitry in “power guarantee functions in new-generation ESU. Applicable parameters – power, current, peak-to-peak voltage (closed load only) and crest factor – can easily be observed during the automatic, sequential output energy measurements.
Depend on the QA-ES III Electrosurgical Analyzer for complete ESU preventive maintenance, and safety testing of all critical functions. Collect all measurements including vessel sealing, contact quality monitor (CQM), high frequency (HF) leak-age and output power distribution in single or continuous mode.
Step 1: Inspect the System and Accessories
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 10 - Safety Testing in Accordance with IEC601
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 2 - Inspecting the Internal Components
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 3 - Test the System
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 4: Verify REM Function
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 5 - Verify Autobipolar Mode
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 6 - Verify Cross-Coupling
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 7 - Confirm Power Delivery at Receptacle
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 8 - Verifying Power Output
Review the entire series to learn more about preventative maintenance using the QA-ES III.
Step 9 - Checking High-Frequency Leakage Current
Review the entire series to learn more about preventative maintenance using the QA-ES III.
The QA-ES II provides connections and load configurations to measure HF leakage from both grounded and isolated equipment.
Power distribution: Tests impedance-sensing circuitry in “power guarantee functions in new-generation ESU. Applicable parameters – power, current, peak-to-peak voltage (closed load only) and crest factor – can easily be observed during the automatic, sequential output energy measurements.
Collect all measurements including vessel sealing, contact quality monitor (CQM), high frequency (HF) leakage and output power distribution in single or continuous mode. The QA-ES III has all hardware and software needed for complete testing, so you don’t need to carry additional accessories or cables.
See how the QA-ES III Electrosurgical Analyzer provides the functionality you need for verifying the performance and safety of electrosurgical units.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
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With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
With numerous complex steps, calibrating and testing the ForceTriad can be a lengthy and complicated process, prone to error. Fluke Biomedical has taken the guess work out with an interactive video series that will guide you, step-by-step. Using our QA-ES III Electrosurgical Analyzer, you’ll be able to perform calibration and preventive maintenance on the ForceTriad generator per the manufacturer’s guidelines.
View a variety of test devices available from Fluke Biomedical for various measurements and functional testing of Defibrillator parameters and cardiac-related patient simulation.
Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
Learn how to test leakage on an ultrasound probe with the Fluke Biomedical ULT 800 and ESA 612.
Accurately and reliably conduct in-depth testing of gas flow medical equipment, especially devices requiring ultra-low flow and ultra-low pressure measurements, including neonatal, mechanical and high-frequency ventilators.
Reduce setup time by configuring your Profiles. 20 customizable profiles can be used to configure your VT650 or VT900 to show ONLY the parameters that you need in order to complete preventative maintenance. Once you configure units, test parameters, gas type, correction mode, breath detection, etc., you can reduce 90% of future device setup time.
Ensure traceability by using Test IDs. When you setup Test IDs on your VT650 or VT900, you are able to record test data to one report tied to the Asset ID. This data can later be exported from the onboard memory and easily uploaded to your PC or CMMS.
The new VT650 and VT900 Gas Flow Analyzers from Fluke Biomedical are packed with features for those who need portable, on-the-go testing. You can test all types of ventilator and respiratory equipment; weighing in at 3.6 lbs., they’re lightweight and portable; all inclusive, with no extra modules required; and the large 7” touchscreen is easy to read up to 6’. Plus, the VT900 offers ultra-low flow and ultra-low pressure testing.
With the addition of the new VT650 and VT900, Fluke Biomedical gas flow analyzers offer the highest accuracy on the market for testing gas flow and respiratory medical equipment, including all types of ventilators, flow meters, endoscopic insufflators, suction devices, pressure gauges and anesthesia machines in which the highest accuracy of low volume and pressure is crucial.
In this video series learn how to use the VT900A + VAPOR run a generalized PM/efficacy test procedure on an anesthesia delivery system. Specifically the respiratory support functions on the anesthesia delivery system.
In this video series learn how to use the VT900A + VAPOR run a generalized PM/efficacy test procedure on an anesthesia delivery system. Specifically the vaporizer on the anesthesia delivery system.
VT900A + VAPOR Gas Flow Analyzer and Anesthesia Tester
Demonstration of the new ProSim 8 Vital Signs Simulator, testing patient monitors fast thanks to Fluke Biomedical innovation.
Watch this video with Joe West from Spacelabs Healthcare, a patient monitor manufacturer from Snoqualmie, WA to see how they use the Fluke Biomedical ProSim 8 in their manufacturing quality assurance, field service teams and in the classroom during product training.
Demonstration of the new ProSim 4 Vital Signs Simulator, troubleshooting patient monitors fast thanks to Fluke Biomedical innovation.
With the perfect balance of features, the ProSim 3 is engineered to test multiple parameters in a portable, compact package. See it in action to view its testing capabilities. Learn more at www.flukebiomedical.com.
Patient Monitor Testing and Troubleshooting Fast. Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
Get the ProSim 8 multifunction vital signs simulator to ensure your devices provide the ultimate in-patient safety. Reduce your testing time with this all-in-one tester; integrated auto-sequences, onboard memory and a 9-hour battery life allow you to test all day long. No extra modules are needed. Wireless PC communication, customized presets, barcode scanning, direct data capture and printing functions allow for maximum productivity.
The ProSim 8 patient simulator enables you to complete preventive maintenance testing with one device in less than five minutes
In-depth demonstration on how to test using the Fluke Biomedical ProSim 8 Vital Signs Patient Simulator
Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
Be the first to check it out! New ProSim SPOT Light SpO2 Functional Tester.
Demonstration of the new ProSim 8 Vital Signs Simulator, testing patient monitors fast thanks to Fluke Biomedical innovation.
Ansur 3.0 Test Automation Software is the fastest and easiest way to execute test procedures, document and store results.
Did you know that every human body has a different resistance level (aka transthoracic impedance) when treated with defibrillator current? In this video series, Justin Ross CBET discusses transthoracic impedance variability and the importance of testing multiple patient loads during every defibrillator test.
Personal dosimetry radiation monitoring systems include a set of real-time personal radiation dosimeters, coupled with a display and software, to provide a complete, immediate visual of radiation exposure.
Personal dosimetry radiation monitoring systems include a set of real-time personal radiation dosimeters coupled with a display and software to provide a complete, immediate visual of radiation exposure. Real-time feedback encourages continuous behavior modification.
Personal dosimetry radiation monitoring systems include a set of real-time personal radiation dosimeters, coupled with a display and software, to provide a complete, immediate visual of radiation exposure.
Personal dosimetry radiation monitoring systems include a set of real-time personal radiation dosimeters coupled with a display and software to provide a complete, immediate visual of radiation exposure. Real-time feedback encourages continuous behavior modification.
Staff exposure to radiation due to the increasing use of minimally invasive, image-guided medical procedures continues to grow, but so does awareness of the need for rules and regulations governing the maximum dose of radiation allowed. These factors have led to the development of different detection devices designed to keep staff safe, including real-time staff dose monitoring systems.
See how radiation exposure can instantly be managed with the RaySafe i3 dosimeter. It provides immediate feedback so medical staff can see how changes in behavior and X-ray equipment use can reduce radiation exposure, instantly.
Business Development Manager, Ed Brand, shows up how to safely clean the RaySafe 452 Radiation Survey Meter.
This type of biomedical equipment testing is carried out with the help of a 1210 adapter since the ports in the electrical safety analyzer are not enough for a 5-lead or 12-lead defibrillator. The 1210 adapter comes with a snap-to-banana pin adapter, meaning you will have two since the Fluke biomedical safety analyzer has one as well. Therefore, it becomes easy to connect to 12-lead with snap-to-banana pins, to the ECG, and then to the ESA all at once.
Biomedical testing is essential since it ensures safety for your patients and the hospital at large. For accurate results, watch the video to the end.
In this video, you will learn about the standard accessories used alongside electrical safety analyzers.
These accessories include;
• Test lead set (red and black test cables)
• TP74 test probe set (red and black)
• AC285 alligator clip set (red and black)
• Power cable w/C19 plug, detachable, 120 V/15 A
• Carrying Case
• Banana Jack to ECG Adapter
• USB Data Transfer cable
The electrical safety analyzers come with an improved 15-amp power cord at 6-feet in length. A black and red test cable come standard with our analyzer, which are universal with other Fluke devices.
Among the accessories you will need here include three snap-to-banana-pin adapters that will hook on the ESA612, ESA614, or ESA615. Also, you will need a set of hands-free adapters and some cables.
In this video, Justin will walk through step-by-step to show you how to connect the ESA612, ESA614, or ESA615 to a 3-lead defibrillator. This gives you the ability to test with all applied parts connected and test the following: ground wire resistance, ground wire leakage, normal polarity, single fault condition, chassis leakage, normal condition, or you can raise the earth for a single fault.
Infusion pump preventive maintenance and repair can be done quick and easy with highly accurate Fluke Biomedical infusion device analyzers, representing 25 years of experience in infusion device testing. Our infusion device analyzers test all brands of intravenous pumps and are compatible with a wide array of infusion pumps including syringe pumps, volumetric pumps and anesthesia pumps.
Justin will take you through the Fluke Biomedical Infusion Pump analyzers and show you what comes in the box and go into detail on how to use them in the field when testing.
Watch the whole video series and learn how to save time running quality assurance on infusion pumps.
Do you have questions on which infusion pump analyzer is best for you? Justin Ross, CBET will walk around the IDA-5 and show you the features and benefits and what comes in the box. Find the other videos in this series here.
Watch Marcus Flack, from Fluke Biomedical explain how our NEW! OneQA software was developed. William, a Biomedical Engineer, explains the benefits of using this workflow automation software.
Fluke BiomedicaFluke Biomedical OneQA™ Workflow Automation Software is a cloud-based application designed to streamline your workflow and enhance your productivity, helping you achieve compliance while improving the quality and safety of your equipment, like patient monitors or defibrillators. OneQA™ software provides a more efficient way of working, enabling you to conduct fast and accurate testing, minimize risk and comply with regulations from accrediting agencies.
Fluke Biomedical OneQA™ Workflow Automation Software is a cloud-based application designed to streamline your workflow and enhance your productivity, helping you achieve compliance while improving the quality and safety of your equipment, like patient monitors or defibrillators. OneQA™ software provides a more efficient way of working, enabling you to conduct fast and accurate testing, minimize risk and comply with regulations from accrediting agencies.
Fluke Biomedical OneQA is our software platform that enables automated workflows for testing biomedical devices. It helps improve the safety of your biomedical equipment and gives you more time to focus on tasks that matter most, patient and staff safety. Watch this video with James and Tony, Biomedical Technicians from Mount Nittany Medical. See how Fluke Biomedical OneQA software integrates with their CMMS TruAsset creating a streamlined workflow for their quality assurance program.
Learn from experts how they have increased productivity with the automation of tests, electronic documentation of procedures, and Fluke Biomedical OneQA workflow software.
In this webinar, we will discuss the importance of integration with your CMMS system. We will have a special guest Kevin Dore from Nuvolo, one of the largest hospital CMMS providers.
Workflow Integration - We offer a powerful set of APIs so you can customize how OneQA fits into your workflow to further automate your asset management system. See how Fluke Biomedical OneQA software integrates with CMMS TruAsset creating a streamlined workflow for a quality assurance program. Learn more about TruAsset: https://truasset.com
Fluke Biomedical OneQA is our software platform that enables automated workflows for testing biomedical devices, including your defibrillators. It helps improve the safety of your defibrillators and gives you more time to focus on tasks that matter most, patient and staff safety. Watch this video with Justin Ross, CBET as he demonstrates how Fluke Biomedical OneQA software integrates with our test devices (Impulse 7000DP and ESA614) to make quality assurance for patient monitors seamless through pre-built procedures. These procedures can be customized to your biomedical shop based on the standards and OEM recommendations for each device.
Fluke Biomedical OneQA is our software platform that enables automated workflows for testing biomedical devices, including your patient monitors. It helps improve the safety of your patient monitors and gives you more time to focus on tasks that matter most, patient and staff safety. Watch this video with Justin Ross, CBET as he demonstrates how Fluke Biomedical OneQA software integrates with our test devices (ProSim 8 and ESA614) to make quality assurance for patient monitors seamless through pre-built procedures. These procedures can be customized to your biomedical shop based on the standards and OEM recommendations for each device.
Watch this video with Justin Ross, CBET as he demonstrates how Fluke Biomedical OneQA software integrates with our ESA614 to make quality assurance for patient monitors seamless through pre-built procedures.
Fluke Biomedical OneQA is our software platform that enables automated workflows for testing biomedical devices, including your gas flow equipment. It helps improve the safety of your ventilators and gives you more time to focus on tasks that matter most, patient and staff safety. Watch this video with Justin Ross, CBET as he demonstrates how Fluke Biomedical OneQA software integrates with our test devices (VT900A and ESA 614) to make quality assurance for ventilators seamless through pre-built procedures. These procedures can be customized to your biomedical shop based on the standards and OEM recommendations for each device.