The MICRO+ MR MLR+350 Laser is used for aligning patients to medical diagnostic
The MICRO+ MR MLR+350 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MR MLR+300 Laser is used for aligning patients to medical diagnostic
The MICRO+ MR MLR+300 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
Gammex CT Sim Laser systems are used in the simulation stage of radiation therap
Gammex CT Sim Laser systems are used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim is intended to read laser positioning coordinates in a specified file format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The MICRO+ MR MLG+350 Laser is used for aligning patients to medical diagnostic
The MICRO+ MR MLG+350 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MR MLB+350 Laser is used for aligning patients to medical diagnostic
The MICRO+ MR MLB+350 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MR MLB+350 Laser is used for aligning patients to medical diagnostic
The MICRO+ MR MLB+350 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
Gammex CT Sim Laser systems are used in the simulation stage of radiation therap
Gammex CT Sim Laser systems are used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim is intended to read laser positioning coordinates in a specified file format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
Gammex CT Sim Laser systems are used in the simulation stage of radiation therap
Gammex CT Sim Laser systems are used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim is intended to read laser positioning coordinates in a specified file format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
Gammex CT Sim Laser systems are used in the simulation stage of radiation therap
Gammex CT Sim Laser systems are used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim is intended to read laser positioning coordinates in a specified file format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
Gammex CT Sim Laser systems are used in the simulation stage of radiation therap
Gammex CT Sim Laser systems are used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim is intended to read laser positioning coordinates in a specified file format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The RapidCHECK platform is intended for supporting users in analyzing diagnostic
The RapidCHECK platform is intended for supporting users in analyzing diagnostic imaging data to ensure the performance of the diagnostic system is operating within safe and expected tolerances.
The MICRO+ MLR+350 Laser is used for aligning patients to medical diagnostic ima
The MICRO+ MLR+350 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MLR+300 Laser is used for aligning patients to medical diagnostic ima
The MICRO+ MLR+300 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MLG+350 Laser is used for aligning patients to medical diagnostic ima
The MICRO+ MLG+350 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MLG+300 Laser is used for aligning patients to medical diagnostic ima
The MICRO+ MLG+300 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MLB+350 Laser is used for aligning patients to medical diagnostic ima
The MICRO+ MLB+350 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The MICRO+ MLG+300 Laser is used for aligning patients to medical diagnostic ima
The MICRO+ MLG+300 Laser is used for aligning patients to medical diagnostic imaging and radiation therapy equipment which utilizes ionizing radiation. This product is used in medical clinic or hospital settings by trained medical staff. The lasers are not designed to be used around flammable anesthetics, which might present a risk of explosion or fire. The lasers are not intended to be used in a sterile or corrosive environment. No other uses are intended or implied.
The CT Sim+, 5-Arm, Red Laser is used in the simulation stage of radiation thera
The CT Sim+, 5-Arm, Red Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 5-Arm, Green Laser is used in the simulation stage of radiation the
The CT Sim+, 5-Arm, Green Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System
The CT Sim+, 5-Arm, Blue Laser is used in the simulation stage of radiation ther
The CT Sim+, 5-Arm, Blue Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 3-Arm, Red Laser is used in the simulation stage of radiation thera
The CT Sim+, 3-Arm, Red Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 3-Arm, Green Laser is used in the simulation stage of radiation the
The CT Sim+, 3-Arm, Green Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 3-Arm, Blue Laser is used in the simulation stage of radiation ther
The CT Sim+, 3-Arm, Blue Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 1-Arm, Red Laser is used in the simulation stage of radiation thera
The CT Sim+, 1-Arm, Red Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 1-Arm, Red Laser is used in the simulation stage of radiation thera
The CT Sim+, 1-Arm, Red Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 1-Arm, Green Laser is used in the simulation stage of radiation the
The CT Sim+, 1-Arm, Green Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 1-Arm, Green Laser is used in the simulation stage of radiation the
The CT Sim+, 1-Arm, Green Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
The CT Sim+, 1-Arm, Blue Laser is used in the simulation stage of radiation ther
The CT Sim+, 1-Arm, Blue Laser is used in the simulation stage of radiation therapy to prepare a patient for treatment. The lasers can be moved to a point that defines the radiation treatment isocenter or can be used to define the center of the CT imager. The Gammex CT Sim+ is intended to read laser positioning coordinates in a DICOM or Gammex specified software format. Typically the coordinates are calculated by a Radiation Therapy Treatment Planning System (RTPS) or CT Virtual Simulation System.
Multimeter MagicMaX developed in accordance with IEC 61674. Flexible solution fo
Multimeter MagicMaX developed in accordance with IEC 61674. Flexible solution for exact dose- and kV-measurements at all X-ray units incl. CT.
KV-Meter with fixed XM Multidetector, for kV and HVL measurements of mammography
KV-Meter with fixed XM Multidetector, for kV and HVL measurements of mammography X-ray units, incl. kV-waveform.
Multimeter with fixed XR Multidetector, for kV and HVL measurements of radiograp
Multimeter with fixed XR Multidetector, for kV and HVL measurements of radiography X-ray Units, incl. kV-waveform.
Dosimeter with internal high voltage supply according to IEC 61674 for use with
Dosimeter with internal high voltage supply according to IEC 61674 for use with ionization chamber DCT10-RS. Designed for measurements at all types of X-ray units.
Single channel dosimeter according to IEC 61674, designed for quality checks at
Single channel dosimeter according to IEC 61674, designed for quality checks at radiographic, fluoroscopic, dental and mammographic X-ray units.
Single channel dosimeter according to IEC 61674, designed for acceptance tests a
Single channel dosimeter according to IEC 61674, designed for acceptance tests and for quality checks at radiographic, fluoroscopic, dental and mammographic X-ray units.
Electronic single-channel dosimeter for constancy test at radiographic and fluor
Electronic single-channel dosimeter for constancy test at radiographic and fluoroscopic X-ray Units.
Dual channel dosimeter especially for quality checks at radiographic and fluoros
Dual channel dosimeter especially for quality checks at radiographic and fluoroscopic X-ray units, combined with sandwich detector DE2DX for simultaneous measurement of entrance- and exit dose.
Multimeter MagicMaX Universal PT, developed in accordance with IEC 61674 & IEC 6
Multimeter MagicMaX Universal PT, developed in accordance with IEC 61674 & IEC 61676. Flexible solution for exact dose- and kV-measurements specialized for kV imager at ProtonTherapy systems.
Multimeter MagicMaX Universal PT with special calibration
Multimeter with fixed XR Multidetector. The solution for exact dose- and kV-meas
Multimeter with fixed XR Multidetector. The solution for exact dose- and kV-measurements at kV-imager of Proton Therapy Systems.
Multimeter MagicMax PT - rad/flu/dent with special calibtation
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.
KermaX Product family is designed to be installed in diagnostic x-ray units and
KermaX Product family is designed to be installed in diagnostic x-ray units and is intended to be used for the measurement of Dose Area Product (DAP)/ DAP rate, exposure time.