EDR-9000 A - US Ophthalmic
EDR-9000 A - US Ophthalmic
EDR-9000 A - US Ophthalmic
  • Video
Load image into Gallery viewer, EDR-9000 A - US Ophthalmic
Load image into Gallery viewer, EDR-9000 A - US Ophthalmic
Load image into Gallery viewer, EDR-9000 A - US Ophthalmic

¥57,806.47


Hurry, only 1 item(s) left in stock!
10 visitors are looking this product!

digital refractor EDR-9000 ezer


Dual Cross Cylinder Lenses
A Dual Cross Cylinder (split prism) allows the patient to simultaneously view the plus and minus cross cylinder lens, eliminating the need to remember which is better, 1 or 2. The exam is easier and less confusing for the patients and more precise – with 1 degree access refinements. When integrated with the Ezer ERK 9000 auto refractor/keratometer very little refinement is required for most patients.
digital refractor EDR-9000 ezer
View of the doctor to the patient

digital refractor EDR-9000 ezer
View of the patient to the screen


digital refractor EDR-9000 ezer

Advanced Engineering
The advanced design incorporates high quality motors that change quickly and reduce sounds when changing lens, which will ensure many years of reliable operation.

Take Control
It's time to replace the standard refractor with the recently re-engineered, intuitively designed EDR-9000 electronic refraction technology. The EDR-9000 lets you take control of the refraction process in ways you never imagined. You can completely program your preferences into the EDR-9000 so you or your technicians can reliably perform the refraction steps in a specific order.

digital refractor EDR-9000 ezer

digital refractor EDR-9000 ezer

digital refractor EDR-9000 ezer

digital refractor EDR-9000 ezer


digital refractor EDR-9000 ezer

Full complement of patient education and special testing charts
When integrated with the Ezer ECP 5400 the EDR 9000, it provides the operator with more patient education, special testing and color charts than any refraction system currently on the market, placing improved diagnostic efficiency at your fingertips.

digital refractor EDR-9000 ezer

Objective and Subject Compare Functions
The Ezer EDR-9000 also provides 6 test modes that allow you to quickly compare your objective test results and multiple subjective test result for final verification of change. For example, the operator can quickly compare the previous Rx to the new Rx, or day and night vision corrections, which will remove patient doubts about their need for a new and personalized prescription.

Visual Charts and Tests
The EDR-9000 offers worldwide standardized charting. With one built-in System Program and 11 Custom Programs and Unit Test Functions (30 System Test and 36 Custom Programs), the possibilities are endless. Practitioners can completely control the exam according to professional preference.


digital refractor EDR-9000 ezer

digital refractor EDR-9000 ezer


digital refractor EDR-9000 ezer
Compare Functions
The EDR-9000 also offers 6 test modes that allow you to directly compare your objective test results with the subjective test result. The helpful Compare Mode allows you to directly witness how the results of the subjective vision test differ from those measured by the Ref/Keratometer and Lensmeter.

Touch-Screen Interface
The 8" LCD touch panel is a powerful communication and programming hub, allowing you to define and choose programs, unit tests and more. It intuitively guides practitioners and staff for convenient system operation. Personalized updates are also simple using the built-in USB.


digital refractor EDR-9000 ezer


digital refractor EDR-9000 ezer


High-Resolution Color LCD Panel with Tilt and Screen Reversal
Offering 180° of tilt and touch interface, the high-resolution color LCD panel also offers a host of visual testing possibilities, allowing you to accurately perform color blindness tests and assess near vision using built-in charts and images.

digital refractor EDR-9000 ezer
Elegant User-Friendly Keypad
The Ezer EDR-9000 provides an elegant keypad with well organized keys grouped by function. Shortcut options are also possible for further ease of use. An 8-inch LCD touch panel puts chart selection, and many other efficiency functions, at fingertip control.

digital refractor EDR-9000 ezer

Built In Printer
The one-step printing process lets operators quickly print test results. Paper replacement is also simplified.

digital refractor EDR-9000 ezer
Compatible Connection to Various Systems
Various chart devices (ECP-5400, ERK 9000, and PCs) can be connected with a single cable. It's recommended that owners also utilize the ERK-9000 to make full use of the functionality that's possible with the EDR-9000.

digital refractor EDR-9000 ezer

Simultaneous Data Sharing
The EDR-9000 makes it possible to organize and manage refraction in one test environment. At last, data sharing is cost effective thanks to that maximized compatibility among products centered around the powerful and robust EDR-9000.

 

EDR-9000 Video


How to use?
Measurement Range
Spherical Lens -29.00 ~ +26.75D (Regular)
-19.00 ~ +16.75D (Cross Cylinder, Prism Test)
(Step: 0.12D / 0.25D / 0.5D / 1D / 2D / 3D)
Cylinder Lens 0.00 ~ 8.75D
(Step: 0.25D / 0.5D / 1D / 2D / 3D)
Cylinder Axis 0 ~ 180°
(Step: 1° / 5° / 15° / 30° / 45°)
Pupil Distance Far 2 ~ 3.15in (48 ~ 80mm)
Near 1.8 ~ 3in (45 ~ 75mm)
(Step: 0.019 / 0.039in (0.5 / 1.0 mm))
Working Distance 14 ~ 28in (350 ~ 700mm)
(Step: 2in (50 mm))
Rotary Prism 0 ~ 20Δ
(Step: 0.1Δ / 0.2Δ / 0.5Δ / 1Δ / 2Δ)
Cross Cylinder Jackson Cross Cylinder ± 0.25D
Jackson Cross Cylinder ± 0.50D
Dual Cross Cylinder
Retinoscopy Lens +1.5D, +2.0D (Test Distance 24in, 20in (670mm, 500mm))
Specifications
Body 14(W) x 4(D) x 11.7(H) in, 7.7lb (362(W) x 82(D) x 299(H) mm, 3.5Kg)
Controller 8.4(W) x 9(D) x 8.9(H) in, 3.3lb (215(W) x 230(D) x 226(H) mm, 1.5Kg)
Junction Box 10.5(W) x 2.4(D) x 9.4(H) mm, 2.2lb (266(W) x 60(D) x 239(H) mm, 1.0Kg)
Power Supply AC 100 ~ 240V, 50 / 60 Hz
Power Consumption 90VA
Auxiliary Lenses
Open / Close Lens Open / Close Select
Pin Hole Lens Ø0.04in (1mm)
Maddox Rod Right Eye (Horizontal Red), Left Eye (Vertical Red)
Red / Green Filter Right Eye(Red), Left Eye(Green)
Polarized Light Filter Right Eye (135°, 45°), Left Eye (45°, 135°)
Separating Prism Right Eye(6ΔBU), Left Eye (10ΔBI can be added to 0 ~ 5Δ)
PD Test Lens On / Off Select
Fixed Cross Cylinder Lens Jackson Cross Cylinder ±0.50D, Axis Fixation 90°
Vision Degrees 32°
Designs and details can be changed without prior notice for its improvements.
Measurement Range
Spherical Lens -29.00 ~ +26.75D (Regular)
-19.00 ~ +16.75D (Cross Cylinder, Prism Test)
(Step: 0.12D / 0.25D / 0.5D / 1D / 2D / 3D)
Cylinder Lens 0.00 ~ 8.75D
(Step: 0.25D / 0.5D / 1D / 2D / 3D)
Cylinder Axis 0 ~ 180°
(Step: 1° / 5° / 15° / 30° / 45°)
Pupil Distance Far 2 ~ 3.15in (48 ~ 80mm)
Near 1.8 ~ 3in (45 ~ 75mm)
(Step: 0.019 / 0.039in (0.5 / 1.0 mm))
Working Distance 14 ~ 28in (350 ~ 700mm)
(Step: 2in (50 mm))
Rotary Prism 0 ~ 20Δ
(Step: 0.1Δ / 0.2Δ / 0.5Δ / 1Δ / 2Δ)
Cross Cylinder Jackson Cross Cylinder ± 0.25D
Jackson Cross Cylinder ± 0.50D
Dual Cross Cylinder
Retinoscopy Lens +1.5D, +2.0D (Test Distance 24in, 20in (670mm, 500mm))
Specifications
Body 14(W) x 4(D) x 11.7(H) in, 7.7lb (362(W) x 82(D) x 299(H) mm, 3.5Kg)
Controller 8.4(W) x 9(D) x 8.9(H) in, 3.3lb (215(W) x 230(D) x 226(H) mm, 1.5Kg)
Junction Box 10.5(W) x 2.4(D) x 9.4(H) mm, 2.2lb (266(W) x 60(D) x 239(H) mm, 1.0Kg)
Power Supply AC 100 ~ 240V, 50 / 60 Hz
Power Consumption 90VA
Auxiliary Lenses
Open / Close Lens Open / Close Select
Pin Hole Lens Ø0.04in (1mm)
Maddox Rod Right Eye (Horizontal Red), Left Eye (Vertical Red)
Red / Green Filter Right Eye(Red), Left Eye(Green)
Polarized Light Filter Right Eye (135°, 45°), Left Eye (45°, 135°)
Separating Prism Right Eye(6ΔBU), Left Eye (10ΔBI can be added to 0 ~ 5Δ)
PD Test Lens On / Off Select
Fixed Cross Cylinder Lens Jackson Cross Cylinder ±0.50D, Axis Fixation 90°
Vision Degrees 32°
Designs and details can be changed without prior notice for its improvements.

How to use?

Step 1 - Overview



Step 2 - Display Overview

Step 3 - Keyboard Overview



Step 4 - Patient Setup

Step 5 - Performing the Refraction

Recently viewed