High Precision Stainless Steel Etched Encoder Disk for Rotary
Encoder Sensor
1. Product Introduction
Etched Encoder Disk is a core precision optoelectronic component specially developed
for rotary encoders, speed sensors and position detection systems.
Manufactured by advanced stress-free photochemical etching
technology, our etched encoder disk abandons the defects of traditional stamping, laser cutting and
mechanical processing, featuring ultra-uniform grating slots,
smooth edge finish and zero burrs.
This precision encoder disk achieves micron-level dimensional accuracy and consistent slot
pitch, ensuring stable optical signal transmission and
high-resolution pulse output. It effectively avoids signal jitter,
pulse loss and detection deviation caused by uneven grating and
rough edges, greatly improving the detection accuracy, response
speed and operational stability of rotary encoder equipment.
Different from traditional processing parts, photochemical etched
encoder disks have no mechanical stress deformation, maintaining
long-term flatness and structural stability during high-speed
rotation.
We adopt high-quality SUS304, SUS316L stainless steel and phosphor
bronze materials for production, featuring excellent oxidation
resistance, corrosion resistance and fatigue resistance. Widely
applicable to industrial automation encoders, servo motor encoders,
medical equipment sensors, intelligent instrument position
detection and high-precision motion control systems, our etched
encoder disks support full OEM/ODM customization and comply with
global industrial precision component standards.
2. Product Specification Table | Item | Specification | | Product Name | High Precision Etched Encoder Disk | | Core Keyword | Etched Encoder Disk, Encoder Disk | | Processing Technology | Stress-Free Photochemical Etching | | Available Material | SUS304 / SUS316L Stainless Steel, Phosphor Bronze | | Thickness Range | 0.05mm - 0.5mm Customizable | | Grating Resolution | 100PPR - 5000PPR Custom Grating Slots | | Dimensional Tolerance | ±0.003mm Ultra-High Precision | | Surface Feature | Burr-Free, Stress-Free, Ultra-Flat, Uniform Grating Pitch | | Core Advantage | No Signal Jitter, High Rotational Stability, Long Service Life | | Application Industry | Industrial Automation, Servo Motor, Medical Equipment, Smart
Instrument | | Quality Standard | ISO9001, RoHS Compliant, Industrial Grade Precision Standard |
3. Etching Process Flow
Step 1. High-Purity Substrate Selection & Cleaning
Select high-flatness stainless steel and phosphor bronze
substrates, remove surface oil stains, oxide layers and impurities
through multi-stage precision cleaning to ensure a flawless base
for ultra-precision grating etching.
Step 2. Double-Sided Photoresist Lamination & Curing
Uniformly coat high-sensitivity ultra-thin photosensitive resist on
both sides of the metal sheet, and perform constant-temperature
low-speed curing to form a dense and uniform protective film,
avoiding grating pattern deviation and edge defects.
Step 3. High-Precision UV Pattern Exposure
Adopt imported micron-level exposure equipment to transfer
customized encoder grating patterns, realizing accurate positioning
of inner holes, outer circles and grating slots to ensure
consistent pitch of each grating.
Step 4. Precision Developing & Pattern Molding
Remove unexposed photoresist evenly to expose the target etching
area, forming neat, smooth and vertical grating slot outlines
without burrs, gaps or serrations.
Step 5. Intelligent Constant-Pressure Etching
Precisely control etching solution concentration, temperature and
spray pressure through automated system, achieve synchronous and
uniform etching on both sides, ensuring consistent depth and
verticality of all grating slots of the etched encoder disk.
Step 6. Surface Passivation & Anti-Oxidation Treatment
Completely strip residual photoresist, followed by precision
polishing and anti-corrosion passivation treatment to enhance
surface hardness and oxidation resistance, adapting to long-term
high-speed rotation working conditions.
Step 7. Ultrasonic Cleaning & Full Precision Inspection
Multi-frequency ultrasonic deep cleaning removes chemical residues.
Each encoder disk undergoes full inspection of flatness, grating pitch, dimensional
tolerance and surface finish before delivery.
4. Packaging Method
As ultra-precision industrial components, our etched encoder disk adopts professional anti-deformation, anti-scratch and dust-free
export packaging to avoid precision damage during international
long-distance transportation:
• Inner packaging: Independent dust-free anti-static bag + soft
plastic tray for single encoder disk, effectively preventing
surface scratches and grating damage
• Buffer protection: Custom shockproof EVA foam interval isolation
for batch products, completely avoiding extrusion deformation and
dislocation
• Outer packaging: Reinforced thickened waterproof and
pressure-resistant carton, suitable for sea freight, air freight
and international LCL transportation
• Custom service: Support exclusive brand labeling, batch number
marking and customized dust-free packaging for high-end industrial
clients
5. Our Services
• Full Precision Customization: Customize encoder disk outer diameter, inner hole size, grating
resolution, slot shape and thickness according to customer drawings
and encoder parameters
• Fast Prototype Sampling: Support small-batch rapid proofing for new product R&D and
equipment testing, shorten customer project cycle
• Stable Mass Production: Automated precision etching production lines ensure zero
difference batch consistency of etched encoder disk
• Professional Technical Optimization: Provide grating structure optimization solutions to improve
encoder signal stability and detection accuracy
• Global One-Stop Export Service: Support small trial orders and large bulk orders, provide
complete export certification documents
• 24/7 Global After-Sales Support: Professional industrial component technical team responds quickly
to customer consultation and after-sales problems
6. FAQ
Q1: What is the advantage of etched encoder disk over laser cut
encoder disk?
A1: Laser cut encoder disk has thermal deformation, rough grating edges and burrs, which
easily cause optical signal jitter and pulse loss. Our etched encoder disk adopts stress-free photochemical etching process, with vertical
and smooth grating walls, zero thermal deformation and
ultra-uniform pitch. It ensures stable optical signal induction,
effectively improving encoder detection precision and reducing
failure rate, which is the best choice for high-precision motion
control equipment.
Q2: Which material is suitable for industrial encoder disk?
A2: SUS304 stainless steel is cost-effective with good rigidity and
anti-oxidation performance, suitable for conventional indoor
industrial encoders. SUS316L has stronger corrosion and moisture
resistance for humid and corrosive working environments. Phosphor
bronze features better ductility and conductivity, ideal for
high-frequency high-precision encoder equipment.
Q3: Can you customize high-resolution ultra-fine grating encoder
disk?
A3: Yes. We support full customization of 100PPR-5000PPR
high-resolution grating etched encoder disk, ultra-fine narrow slot and special-shaped grating structures,
meeting the R&D and production needs of high-end precision
encoders.
Q4: What is your production lead time?
A4: Custom sample order: 4-6 working days; Mass production order:
8-15 working days. Expedited production service is available for
urgent industrial projects.
Q5: Will the etched encoder disk deform during high-speed rotation?
A5: Our products adopt stress-free etching process without internal
mechanical stress. After professional flatness calibration and
passivation treatment, the encoder disk maintains excellent structural stability and flatness under
long-term high-speed rotation, no deformation or vibration,
ensuring long-term stable operation of encoders. |
