High Quality for Silver Engraved Plate - 2.5D Dynamic Focus System – FEELTEK
High Quality for Silver Engraved Plate - 2.5D Dynamic Focus System – FEELTEK Detail:
Deep engraving, small field micro processing Priority choice for micro-processing
CNC shell, dust prevention, compact structure, easy to integrate.
Optional water cooling design, it can be applied to high-temperature drift requirements.
Adopts the digital pulse width modulation driving technology, owns higher response speed and lower temperature drift.
FE10 (E10)
FE15 (E15)
FE20 (E20)
Highlight: drilling, high precision markingle
The focal point is controlled by the optical and is controllable by software, effectively reducing the collapse edge.
Dynamic focus can realize the 3D surface application.
No need for mechanical optical lifting, a simple structure, and easy to achieve automation, improve efficiency.
High efficiency
The dynamic axis and the XY axis are fully software coordinated, and the layered focus compensation is completed in microseconds with high efficiency.
High precision
With the switch of the processing depth, the dynamic axis coordinately adjusts the focal length and adjusts the center spot in real-time, which can achieve higher accuracy than traditional scanhead.
Application Highlight
● Drilling
● Engraving
● Super precision marking
Glass drilling (different shape)
Precision marking
Hard material deep carving
Engraving (Knife tool)
Application Video
Product Technical Information
Items | Output Voltage(VDC) | ±15 |
Current(A) | 10A | |
Protocol | XY2-100 Protocol | |
Cooling Condition | Cooling Media | Distilled or de-ionized water plus corrosion inhibitor |
Temperature(°C) | 22-28 | |
Recommended cooling pressure(bar) | 2-3 | |
Recommended flow rate(l/min) | 4-6 |
Producr line | product line | E10 | E15 | E20 |
Weight (KG) | 5.6 | 6.7 | 9 | |
Size(mm) | 297*125*120 | 339*125*120 | 337*134*153.5 |
Galvanometer Specifications | E10 | E15 | E20 | ||||||
Version | Standard | Pro | P2 | Standard | Pro | P2 | Pro | P2 | |
Tracking error(ms) | ±0.18 | ±0.18 | ±0.18 | ±0.21 | ±0.21 | ±0.2 | ±0.28 | ±0.27 | |
Repeatability(μrad) | 8 | 8 | 5 | 8 | 8 | 5 | 8 | 5 | |
Temperature drift(μrad/k) | <2 | <2 | <1 | <2 | <2 | <1 | <2 | <1 | |
Long-term drift(>24h, room temperature)(mrad) | ≤0.2 | ≤0.2 | ≤0.1 | ≤0.2 | ≤0.2 | ≤0.1 | ≤0.2 | ≤0.1 | |
Max.processing speed(sharacters/s)(high-quality mode) | 350 C/S@200×200 | ||||||||
Operating temperature(°C) | 25℃±10℃ |
E10 Optical Specifications |
Wavelength | 355nm | 532nm | 1064nm | ||
Aperture Size(mm) | ≤10mm | ≤10mm | ≤10mm | |||
Input magnification options | 2X | 2.66X | 2X | 2.66X | 1.16X | |
Z depth 1) | ±5mm / ±25mm |
E15 Optical Specifications |
Wavelength | 355nm | 532nm | 1064nm | ||
Aperture Size(mm) | ≤15mm | ≤15mm | ≤15mm | |||
Input magnification options | 2X | 2.66X | 2X | 2.66X | 1.66X | |
Z depth 2) | ±5mm / ±25mm |
E20 Optical Specifications |
Wavelength | 1064nm | ||||
Aperture Size(mm) | ≤20mm | |||||
Input magnification options | 2.1X | 2.57X | 2.66X | |||
Z depth 3) | ±5mm |
1), 2), 3) Long focal length and short focal length version for option.The manual data is based on F-θ 254 under 150*150mm.
Mechanical Drawing
E10
E15
E20
Product detail pictures:
Related Product Guide:
The corporate keeps towards the operation concept "scientific administration, superior quality and performance primacy, client supreme for High Quality for Silver Engraved Plate - 2.5D Dynamic Focus System – FEELTEK , The product will supply to all over the world, such as: Niger , Haiti , Auckland , We have more than 8 years of experience in this industry and have a good reputation in this field. Our products have won praise from customers worldwide. Our aim is to help customers realize their goals. We are making great efforts to achieve this win-win situation and sincerely welcome you to join us.
By June from Slovak Republic - 2017.12.02 14:11
This company conforms to the market requirement and joins in the market competition by its high quality product, this is an enterprise that have Chinese spirit.
By Ann from Costa Rica - 2017.07.07 13:00