Ultrahigh Accurate 3-D Profilometer

Designed to measure aspherical lenses & molds, freeform optics, mirrors and any other precision component requiring nanometer level accuracy

Key features

Ultra-accurate measurement with highest stability

Automatic NC program generation

Extensive library of optional software

In the 1980s, Panasonic was the first company in the world to commercialize glass-molded aspheric lenses. UA3P was developed under thus efforts.

"No measurement, No production." This slogan was born during difficult challenges that Panasonic was facing.

UA3P has been used by customers around the world since its launching and has now gained their trust as the primary standard in the optical industry. For example, lenses are produced through the processes of creating molds with a processing machine and using a molding machine to form lens products. In order to control production conditions that is changing constantly, measuring equipment with higher precision that enables us to capture "changes" is indispensable. We believe that high-quality manufacturing can only be achieved with high-precision measuring equipment.

The world's highest-level 3-D profilometer "UA3P"

In the years ahead, its nanometer-level reproducibility will contribute to the realization of the dreams not only in the optical industry but in the wide range of customers in "Measurement". Evolving UA3P is our mission to society.

The Panasonic UA3P profilometer series is designed to measure aspherical lenses & molds, freeform optics, mirrors and any other precision component requiring nanometer level accuracy ranging up to 600mm x 600mm (Measurement area 500x500mm). Different machine models are available to meet your optical & high aspect ratio metrology needs.

The various UA3P models all offer users the accuracy of AFM technology with the measurement range of a CMM. Our unique approach is based on our Panasonic Atomic Force Probe technology (AFP) by usage of a stylus and HeNe laser-based interferometric XYZ axis positioning.

Coupling this technology with a solid granite-base we provide to our customers a world-leading metrology system on a nanometer level as a unique metrology tool.

Features of UA3P

Ultra-high precision measurement

Achieving single nanometer level reproducibility

Absolute surface profiling through contact measurement

- Rotationally symmetric aspheric surface (pancake lenses, Gull-wing, D-Cut lenses etc.)
- Free-form surface (polynomial, biconic, anamorphic, etc.)

Flexible NC paths capable of measuring complex shapes

Achieving various analyses based on measurement data

Optimized radius calculation (Best FitR) / Zernike analysis / frequency analysis, etc.

Evaluate Decenter front and back/ Decenter respect outline

Aspheric / free-form surface / wafer lenses, etc.

Enabling surface roughness measurement even for objects with complex shapes

Enabling measurement and evaluation without design formulas

Shape fitting function, etc.

CAD data-based evaluation

Convert CAD to Point Cloud for Evaluation (PARASOLID, STEP, IGS)

Work levelling and labor saving through automatic measurement

The UA3P Series

ranging from standard to large-scale, twin probe to high-accuracy equipment

Standard equipment

UA3P-300
UA3P-400

Large-scale equipment

UA3P-500H / -550H
UA3P-650H
UA3P-700H

Twin probe

Top surface and side surface profilometer

UA3P-400T

High-accuracy equipment

UA3P-3100
UA3P-4000
UA3P-5000H

Technology for ultra-precise measurement

UA3P, which is supporting evolution of optical components, is the primary standard in the optical industry.
He-Ne laser length measurement technology has realized absolute coordinates in nano precision.

Coordinate measurement technology

The coordinate system of the instrument consists of 3 reference planes (mirrors) independent of the stage, and each XYZ axis is measured with 0.3 nm resolution by laser interferometry using a frequency stabilized He-Ne laser as a light source. These technology suppresses the influence of the squareness and straightness of the stage, and achieves high-precision measurement.

Measuring probes

Top surface measurement probe/ AFP

High precision scanning measurement is possible with ultra-low measuring force on an object. Stylus is held by micro-air slider, and focusing laser detects movement of the stylus and follows AFP position to the shape of the object with kept measuring force is constant.

Measuring probes

Side surface measurement probe / S-AFP

The tilt of a probe mirror detected with high precision is fed back to the XY stages to enable scanning measurement with low contact force (0.3 mN). Enabling to measure pastic product such as a lens holder (barrel), without deforming.

Cases

UA3P can be used for different areas of application such as the following.

ua3p_asperical_lense_and_mold measurement

Aspherical lens & Mold measurement

To evaluate the of the 3D form measurement.

Inclination and decentering measurement between lens surfaces

To evaluate any tilt and decentering of the optical axis between lens faces.

Off-axis mirror surface measurement

To evaluate an object that lacks a design origin, such as an X-ray mirror.

$ua3p_diffractive$

Diffractive lens shape measurement

A refractive lens can be measured to evaluate the shape of phase steps.

Surface measurement of free-form curved lens

Such as molds to produce long lenses for laser beam printers.

Lens tool mark measurement

Contours on polished lenses and glass-mold lenses can be evaluated.

Form measurement of large object. (3D)

Large optical parts, such as molds for head-up displays (HUDs) can be evaluated.

Measurement of optical axis of mobile camera lens

Shapes of molds, lenses, and barrels in lens units can be evaluated.

Measurement of barrel multi-stage cylinder

The concentricity of cylinder cross sections, such as lens barrels, can be evaluated.

Wafer level lens measurement

Wafer level lenses can be continuously measured to evaluate their shape.

Decenter evaluation based on interlocked surface

The tilt and decenter of each lens face can be evaluated with reference to the fitting face of the lenses.

Specifications

Type	Standard equipment		Large-scale equipment			Twin probe (top surface and side surface profilometer)	High-accuracy equipment
Model	UA3P-300	UA3P-400	UA3P-500H/550H	UA3P-650H	UA3P-700H	*UA3P-400T ^2**	UA3P-3100	UA3P-4000	UA3P-5000H
Outer dimensions (WxDxH) mm	700x800x1510	1010x1110x1450	1260x1510x1580	2100x1830x2110	2100x1830x2200	1070x1230x1530	760-860x1580	1060x1200x1610	1300x1560x1900
Mass of main body	700kg (Others 150kg)	1200kg (Others 150kg)	2400kg (Others 300kg)	8500kg (Others 300kg)	9000kg (Others 300kg)	750kg	900kg (Others 200kg)	1500kg (Others 300kg)	3200kg (Others 300kg)
Measuring range (X,Y,Z axes) mm	30x30x20	100x100x35	200x200x45 UA3P-550H (+260x90x45)	400x400x120 + ∅500x120	500x500x120	100x100x50	3100-A30 30x30x20 3100-A50 50x50x20	4000-A100 100x100x35 4000-A120 120x120x35	200x200x50
Measured object placement area (X,Y,Z axes) mm	100x100x120	220x220x132	300x270x252.5	600x600x300	600x600x330	200x200x140	130x130x120	210x210x127.5	300x300x255
Resolution	0.3mm
Maximum inclination angle for top-surface measurement	75°	75°	75°			75°	75°
Angle for side-surface measurement	-					Horizontal : 45~90°/Vertical : 80~90°	-
Measurement accuracy with top-surface probe * when using the top ruby stylus or top ceramic stylus	30° or less :(±)0.05µm (round trip) 45° or less :(±)0.08µm (round trip) 60° or less :(±)0.15µm (round trip) 70° or less :(±)0.15µm (download)	30° or less :(±)0.05µm (round trip) 45° or less :(±)0.08µm (round trip) 60° or less :(±)0.15µm (round trip) 70° or less :(±)0.15µm (download)	30° or less :(±)0.05µm (round trip) 45° or less :(±)0.08µm (round trip) 60° or less :(±)0.10µm (round trip) 70° or less :(±)0.15µm (download)			30° or less :(±)0.05µm (round trip) 45° or less :(±)0.08µm (round trip) 60° or less :(±)0.15µm (round trip) 70° or less :(±)0.15µm (download)	30° or less :(±)0.05µm (round trip) 45° or less :(±)0.08µm (round trip) 60° or less :(±)0.15µm (round trip) 70° or less :(±)0.15µm (download)	30° or less :(±)0.04µm (round trip) 45° or less :(±)0.05µm (round trip) 60° or less :(±)0.06µm (round trip) 70° or less :(±)0.10µm (round trip)	30° or less :(±)0.05µm (round trip) 45° or less :(±)0.06µm (round trip) 60° or less :(±)0.07µm (round trip) 70° or less :(±)0.10µm (round trip)
								(Reference) Case of normal direction display (ND) 0~70° : ±0.05µm
Measurement accuracy by coordinate axis (XY axis measurement accuracy)	100mm or less : 0.05µm 200mm or less : 0.1µm (Repeatability within 0.05µm)		100mm or less : 0.05µm 200mm or less : 0.1µm 400mm or less : 0.2µm (Repeatability within 0.05µm)	100mm or less : 0.05µm 200mm or less : 0.1µm 400mm or less : 0.2µm 500mm or less : 0.3µm (Repeatability within 0.05µm)		100mm or less : 0.05µm (Repeatability within 0.05µm)
Measurement speed	0.005~5mm/sec	0.01~10mm/sec	0.02~20mm/sec	0.032~32mm/sec		Top 0.01~10mm/sec, Side 0.01~5mm/sec	0.005~5mm/sec	0.01~10mm/sec	0.02~20mm/sec
Operating environment ^*1 Temperature / Humidity / Vibration	20~23°C Variation ±1°C/20~60% Allowance 2.0cm/s² Recommended 0.5cm/s²					20~25°C Variation ±1°C/20~60% Allowance 2.0cm/s²(=2.0gal) Recommended 0.5cm/s²	20~23°C Variation ±0.5°C/20~60% Allowance 1.0cm/s²(=1.0gal) Recommended 0.5cm/s²
Required power source	AC100V±5%/14A
Air : Pressure 0.5MPa~1.0MPa Flow rate	100 L/min(ANR)	150 L/min(ANR)	250 L/min(ANR)	450 L/min(ANR)		100 L/min(ANR)	150 L/min(ANR)	200 L/min(ANR)	350 L/min(ANR)
Standard accessories	Top ceramic stylus R500µm Top diamond stylus R2D60 Probe Standard sphere for calibration Printer		Top ceramic stylus R500µm Top diamond stylus R2D60 Probe Standard sphere for calibration Printer			Top ceramic stylus R500µm Top diamond stylus R2D60 Side ruby stylus ø2mm Probe Standard sphere for calibration Printer	Top ceramic stylus R500µm Top diamond stylus R2D60 Probe Standard sphere for calibration Printer

Function for top-surface profilometer
Function for side-surface profilometer

^*1 Wind from air conditioners should not directly blow onto the equipment
^*2This product is categorized as a product (or technology) that qualifies as a regulated cargo as specified by the Foreign and Foreign Trade Act. To export or transfer abroad applicable products (or technology), you must gain permission for export in advance from the Japanese government.