Product Highlights Our popular xxh Series of closed loop, galvanometer-based scanners is consistently the industry s leading solution for high-performance laser beam steering. Each motor combines our moving magnet actuator technology with a position detector only available from Cambridge Technology. This patented technology features stable positioning while achieving the fastest scan speeds available in its category. Whether your focus is on speed, accuracy, or footprint, the xxh Series delivers both performance and value. Attain high-performance and reliability for your value-driven application Industry s fastest motor speeds deliver maximum throughput with long-term reliability High-accuracy output across a diverse range of application scanning needs Robust design supports consistent stability over long product lifetimes Footprint of compact models ensures ease of integration for small spaces Available with a wide range of mirrors sizes ( to 0 mm) and coating options
Product Specifications Recommended Aperture Size (mm) Wavelength Options Maximum Scan Angle (degrees) Rotor Inertia (gm cm, ±0%) Torque Constant (dyne cm/amp, ±0%) Maximum Rotor Temperature ( C) Thermal Resistance (Rotor to Case) ( C/watt, maximum) Coil Resistance (ohms, ±0%) Coil Inductance (μh, ±0%) Back EMF Voltage (μv/ /sec, ±0%) RMS Current (A at Tcase = 0 C, maximum) Peak Current (A, maximum) Small Angle Step Response (typical) 00H 0H H 0H 0H H 0H 0H 0H to to to to 0 to to to to 0 to 00 nm / nm / 00 nm - 00 nm / 9. μm - 0. μm Broadband Coatings: 0 nm μm 0 0 0 0.0 0.0 0.0 0. 0.9 0.....0x0.9x0.x0.x0.x0.x0.0x0.0x0.x0 0 0 0..0.0.0 0..0 0. 0. 0.....9.0..0.9 0.0 09 9 0 0 00 0 0.9. 0 9 9 0 0....9.... 0 0 0 0 mm Y mirror mm Y mirror 0 mm Y mirror mm Y mirror 0 mm Y mirror (Be) 0 μs 00 μs 0 μs 00 μs 0 μs 0 μs 0 μs.0 ms. ms Weight (grams, typical)... 90 00 Position Detector (specifications common across all models) Linearity 99.9% minimum, over 0 99.% typical, over 0 Scale Drift 0 ppm/ C, maximum Zero Drift μrad/ C, maximum Repeatability, Short-Term μrad Output Signal, Common Mode μa minimum with AGC current of 0 ma Output Signal, Differential Mode µa/ C (±.%) at common mode current of µa Output Signal, Common Mode to Differential Mode Ratio. (±.%) All angles are in mechanical degrees, unless otherwise noted. All specifications are subject to change without notice. Reference:. 0. step and settled to within 99% of the final position. Requires Cambridge Technology servo board.
00H Galvanometers.. 9 REF.. Ia Ib DC CATH AN S M- M+. Ø... 9. Ø. Ø 9.0 9...0 SLOT TO./. DP.. REF...0. REF. 0H Galvanometers... REF..0. Ia Ib DC CATH AN S M- M+ Ø... 9.. Ø 9.0 9.. SLOT.0 TO./. DP.. REF.... REF
H Galvanometers... REF..0. Ia Ib DC CATH AN S M- M+ Ø... 9. Ø. Ø 9.0 9.. REF. 0..0. REF.. SLOT.0 TO./. DP. 0H Galvanometers.. Ø.00.99. REF.... Ø.00.9 Ø..0. Ø. REF.
0H Galvanometers H Galvanometers. REF. 9..0 Ø.99.9. REF. Ø.9.9 CABLE LENGTH ( STD. LENGTH 0 ±. ) Ø.0 9. OVER SCREW HEAD.
0H Galvanometers VIEW FROM CONNECTOR END. 9... REF. P P P Ø.0 Ø.99.9 STD. LENGTH CABLE 0 ±. 9 REF. Ø.99.9 P SCALE : 0H Galvanometers Ø 0.90 ±0.0 Ø 0. SCREW HEAD CLEARANCE P Ø 0. 0.. 9. Ø 9.99 + - 0.00 0.0 CABLE LENGTH 0. ±. STD. P CONNECTOR END VIEW SCALE :.
0HA Galvanometers.... REF. VIEW FROM CONNECTOR END SCALE : Ø 0. Ø.999.9 P P 9.9 REF. Ø.999.99 STD. LENGTH CABLE 0 ±. P Reference:. 0HA model shown with the A connector type. Additional connector options are available for all models. About Cambridge Technology With close to 0 years of expertise, Cambridge Technology designs, develops, and manufactures innovative beam steering solutions including polygon- and galvanometer-based optical scanning components, -axis and -axis scan heads, scanning subsystems, high power scanning heads, and controlling hardware and software. We excel in collaborating with our key OEM partners to engineer products that meet their needs from the largest engineering solution to the smallest component. Key market applications include advanced industrial processes like additive manufacturing, laser converting, laser marking, and via-hole drilling, and medical applications such as laser treatment and optical coherence tomography. Cambridge Technology is a Novanta company. CAMBRIDGE TECHNOLOGY: AMERICAS + () 00 support-us@cambridgetechnology.com CAMBRIDGE TECHNOLOGY: EMEA +9 (0)9 0 0 support-eu@cambridgetechnology.com CAMBRIDGE TECHNOLOGY: JAPAN & KOREA + () support-jp@cambridgetechnology.com CAMBRIDGE TECHNOLOGY: CHINA, SINGAPORE, MALAYSIA, THAILAND & INDONESIA + () -00 support-cn@cambridgetechnology.com 0 Cambridge Technology. All rights reserved. DS0000 0/