ATOM™ incremental encoder system with RCLC linear scale
- Readhead size: 20.5 x 12.7 x 8.35 mm (20.5 x 12.7 x 7.3 mm for FPC version)
- Resolutions down to 1 nm
- Speed up to 20 m/s
- Analogue or digital outputs
- Low Sub-Divisional Error (SDE) of <±75 nm for 20 µm version and <±120 nm for 40 µm version
- Miniature package
- Filtering optics design enabling high dirt immunity
- Diagnostic kit to assist challenging installations and aid system optimisation
- Assured quality
- Glass spar scale with lower thermal expansion coefficient of ~8 µm/m/°C
What is ATOM?
ATOM is Renishaw's miniature non-contact optical incremental linear and rotary encoder system. Its innovative design combines miniaturisation with leading-edge signal stability, dirt immunity and reliability. This combination is unique in the market place and represents a significant advance in the performance and reliability of miniature encoders.
ATOM is supplied in hi-flex cable and Flexible-Printed Circuit (FPC) variants with either 20 µm or 40 µm scale options.
A range of interfaces is available including the standard Ri, a high-performance Ti and the compact open ACi interface.
What is RCLC scale?
RCLC is a glass spar scale which can be supplied in lengths to 130 mm featuring either 20 µm or 40 µm pitch incremental graduations. RCLC offers a total accuracy of ±3 µm and includes two reference marks: one at the scale mid-point and one at the end-of-travel. Selection is made by the orientation of the readhead relative to the scale.
RCLC is laid onto the substrate with self-adhesive backing tape. The self-adhesive is formulated to allow for independent scale expansion to that of the substrate.
Why choose this encoder system?
Miniature encoder where space is at a premium
ATOM, available in sizes as small as 7.3 mm x 20.5 mm x 12.7 mm, allows for integration in the tightest of spaces. There are a number of options to choose from including both cabled and component FPC versions.
High reliability and system performance
ATOM is the world's first miniature encoder system incorporating Renishaw's unique filtering optics design. This is further enhanced by dynamic signal processing within the readhead including Auto Gain Control and Auto Offset Control. This combination allows ATOM to have higher dirt immunity and signal purity which is comparable to, if not better, than our standard size readheads with SDE's as low as ±75 nm on 20 µm readheads and ±120 nm on 40 µm readheads. The result is smoother velocity control for improved scanning performance and increased positional stability, essential parameters for many motion control applications.
Quality is assured with ATOM's automated production line and fast delivery. ATOM has a number of quality controls including temperature and humidity testing, vibration testing, ISO9001, static discharge testing, radiated interference testing, conducted interference testing, LED burn-in and 100% inspection.
ATOM comes with a variety of interface options which allows greater flexibility to integrate the encoder within your system design.
- Ri interfaces offer analogue 1 Vpp or digital interpolation outputs down to 50 nm (clocked) and 0.5 μm (non-clocked) in a compact low cost package.
- This is contained within an industry standard 15 way D-type connector shell, including CAL button.
- Ti interfaces are designed for applications that require higher speed, lower SDE and digital interpolation down to 1nm and include a CAL button.
- Clocked outputs have been optimised for speed and performance at all resolutions for industry-standard controllers.
- Analogue variants are also available.
- ACi interfaces are a range of high performance, miniature, open interpolator subsystems.
- They bring unparalleled price-performance benefits to today's motion systems that need fine resolution coupled to high speed performance in an ultra compact, open format, small footprint solution and have provision for calibrating the system.
- Digital interpolation down to 10 nm at up to 40 MHz clocked output is available.
- FPC, cabled or PCB connector versions available.
ATOM diagnostic software can be used to optimise the installation of ATOM encoders and provide a quick and comprehensive system calibration. The software must be used in conjunction with the ATOM diagnostic hardware which can be purchased from Renishaw using part number A-9411-0011. The hardware is connected to the PC via the USB cable (provided in the kit) or in-line with the customers' electronics.
Find out all about the ATOM diagnostic kit.
RCLC: adhesive mounting glass spar
Readhead size (LxWxH)
Cable variant: 20.5 mm x 12.7 mm x 8.35 mm
FPC variant: 20.5 mm x 12.7 mm x 7.3 mm
20 μm and 40 µm
Coefficient of thermal expansion
Single reference mark, mid-point or end of scale
18 mm to 130 mm
(see data sheet for details)
40 µm: up to 20 m/s
20 µm: up to 10 m/s
Dependent on interface type, see data sheet for details
40 µm: up to 20 m/s
20 µm: up to 10 m/s
Sub-Divisional Error (SDE)
40 µm version: Typically <±120 nm
20 µm version: Typically <±75 nm
Dynamic signal control
Real time signal conditioning including Auto Gain Control (AGC) and Auto Offset Control (AOC) for optimised performance across a range of operating conditions
Cable readhead: Interboard connector compatible with the Ri, Ti and ACi interfaces or 15 way, D-type connector
5 V ± 10% <50 mA (readhead),<200 mA (with Ti interface), <100 mA (with Ri interface), <100 mA (with ACi interface) (unterminated)
100 m/s² max @ 55 Hz to 2000 Hz
1 000 m/s², 6 ms, ½ sine
0 °C to +70 °C
Cable variant: IP40 Ri interface IP20
Ri/Ti interface: IP20
ACi interface: IP00
Refer to data sheets for full details.