AO Beam Deflectors

Mar 04,2021
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Data Sheet

Acousto-optic beam deflectors (AOBD) offer precise angular control of an optical beam using RF drive frequency tuning. Up to two thousand spots can be resolved over an angular range of a few degrees.

STG Series AO Deflectors

Acousto-optic beam deflectors (AOBD) offer precise angular control of an optical beam using RF drive frequency tuning. Up to two thousand spots can be resolved over an angular range of a few degrees for 1D and 2D scanning as well as beam deflection through a fixed angle. The scan speed can be as fast as a few microseconds.

Beam deflectors offer highly uniform diffraction efficiency across the full scan angle, with consistent power throughput for scanning applications such as material processing and digital imaging. We manufacture devices based on tellurium dioxide crystals grown in-house for visible and near-infrared (NIR) wavelength applications. For optimal transmission in the ultraviolet (UV) we offer fused silica and crystal quartz products. For broad bandwidth applications, we use a longitudinal mode approach with a phased array of piezoelectric elements within the transducer. We achieve high efficiency with slow shear deflection using parallel tangents off-axis interaction.

Typical applications include; photolithography, laser tweezers, optical scanning, optical inspection, digital imaging and PCB via hole drilling.

Please refer to the picture showing the deflection principle. At frequency f1; beam is deflected through angle θ1. At frequency f2; beam is deflected through angle θ2. Thus Scan angle range (Δθ), Δθ = θ1- θ2. Resolution (N) normally quoted as “number of resolvable spots” is equivalent to time-bandwidth product, N = Δf x T, where Δf – f1- f2; T – time for acoustic beam to traverse aperture.

2D scanning system is used for PCB via hole drilling and the configuration is shown as follows. Our recommendation is a package including 2pcs AODF4170 and stages, 1pc dual amplifier RF system.

Our standard AOBD model as below:

Model	Wavelength	Scan Angle	Active Aperture	Operating Frequency	Driver	Optical Material
AOBD 4200-UV	266 nm	10.3 mrad	1.0x60.0 mm	135-265 MHz	6000 series 64020-250-1ADMDFS-A	Fused silica
AOBD 2690-UV	266-355nm	4.9mrad	7mm	100-432MHz	6000 series 64020-250-1ADMDFS-A	Sapphire
AOBD 4130	355nm	1.85mrad	10mm	130MHz		Crystalline quartz
AOBD 4170	355 nm	4.9 mrad	7 mm	130-210 MHz	6000 series 64020-250-1ADMDFS-A	Crystalline quartz
AOBD 4100-UV	364 nm	29.5 mrad	4.0x14.0 mm	75-125 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4090-7	440-530 nm	44 mrad	8.5 mm	60-115 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4200-VI	442-488 nm	29.5 mrad	4.8 mm	150-250 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4100-VI	488 nm	39.5 mrad	4.0-14 mm	75-125 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4080-13	635 nm	8.2 mrad	2 mm	76-84 MHz		Tellurium dioxide
AOBD 4085	750-1064nm	42.5mrad	15mm	55-110MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4055-4	780-980 nm	44.3 mrad	3.5x14 mm	35-70 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4210-IR	830 nm	27.6 mrad	2.0-6.0 mm	140-280 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4090-6	1064 nm	56 mrad	2 mm	72.5-107.5 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4075-IR	1065-1100 nm	8.1 mrad	2.5 mm	59-91 MHz	6000 series 64020-250-1ADMDFS-A	Tellurium dioxide
AOBD 4070	9.4 μm	60 mrad	9 mm	50-90 MHz	6000 series 64020-250-1ADMDFS-A	Germanium

1. Specifications of AOBD 4170 (97-03255-02)

AO Medium: Crystal Quartz
Acoustic Mode: Longitudinal
Acoustic Velocity: 5.744mm/μs
Wavelength: 355nm
Input Polarization: 90º to Mounting Plane
Output Polarization: 90º to Mounting Plane
Insertion Loss: 1%
Center Frequency (Fc): 170 MHz
RF Bandwidth: 80 MHz
RF Power: 20W
Active Aperture: 7mm x 20mm
Min Diffraction Efficiency: 80%
Peak Valley at 633 mm: 0.1
VSWR: 2:1
Scan Angle: 4.9 mrad
Driver: dual-channel driver 97-0600X-XX for 2D scanning

NOTES;

Delay/splitter box is included but not shown.
2 element phased array.
input impedance 50 Ohms.
Unit to be water cooled.

Applications: 2pcs AOBD4170 consist of a 2D scanning for PCB via hole drilling with a dual-channel RF driver ( 6000 series driver). We can provide full solution for the application. Please contact us for more information.

2. Specifications of AODF 4075 (97-02823-52)

AO Medium: TeO2
Acoustic Mode: Longitudinal
Acoustic Velocity: 4.20 mm/μs
Wavelength: 1066-1100 nm
Input Polarization: Linear
Output Polarization:
Insertion Loss:<3%
Center Frequency (Fc): 75 MHz
RF Bandwidth: 32MHz, Goal 40MHz
RF Power: 4W max.
Active Aperture: 2.5 mm dia.
Average Diffraction Efficiency: N/A
Intensity Variation Across Bandwidth: N/A
Min Diffraction Efficiency: 70%
Peak Valley at 633 nm: N/A
RMS at 633 nm: N/A
VSWR: 2.0:1
Scan Angle: N/A
Time Bandwidth: N/A

Notes:

Input Impedance is 50 Ohms.
Electrode: Two Element Phased Array
RoHS Compliant

STBR Series Beam Deflectors

STBR series Acousto-Optic Deflectors (AODs) combined with RF drivers are specially designed for high-speed scanning applications such as laser recording, optical scanning, signal processing, etc. The AOD changes the diffraction angle of an input laser beam and its angular position is linearly proportional to the RF frequency, so that the higher the frequency, the larger the diffracted angle.

KEY FEATURES

1-D and 2-D Deflection Systems
Compact Integrated Design
Wide Spectral Wavelength Range
Uniform Scan Intensity
Low Power Consumption
Linear Polarization
Fast Switching Speed
High Resolution and Bandwidth
High Throughput
Custom Configurations Available

REAL-TIME APPLICATIONS

Photolithography
Continuous Laser Beam Deflection
Vector (Random) Scanning
Signal Processing
Graphic and Laser Printing
Optical Inspection

Model #	Wavelength Range	Active Aperture	Time bandwidth	Product 3dB Bandwidth	Deflection angle (deg.)	DE (%)
STBR-TED-130-60	380-1600nm	1.0 x 4.2mm	60	60MHz	0.44	70
STBR-TED-200-100	380-1600nm	1.0 x 4.2mm	100	100MHz	0.8	70
STBR-TED-320-200	380-1600nm	0.5 x 9.0mm	400	200MHz	1.69	60
STBR-TED-400-200	380-1600nm	0.5 x 5.0mm	200	200MHz	1.69	50
STBR-TED10-100-60-.488	488nm	3.0 x 7.0mm	600	60MHz	2.5	＞75
STBR-TED20-100-60-.488	488nm	3.0 x 14.0mm	1200	60MHz	2.5	＞70
STBR-TED10-100-50-.532	532nm	3.0 x 7.0mm	500	50MHz	3.0	＞70
STBR-TED20-100-50-.532	532nm	3.0 x 14.0mm	1000	50MHz	3.0	＞70
STBR-TED10-75-50-.633	633nm	3.0 x 7.0mm	500	50MHz	3.0	＞75
STBR-TED20-75-50-.633	633nm	3.0 x 14.0mm	1000	50MHz	3.0	＞70
STBR-TED10-60-40-.800	800nm	3.0 x 7.0mm	400	40MHz	2.0	＞70
STBR-TED20-60-40-.800	800nm	3.0 x 14.0mm	800	40MHz	2.0	＞65
STBR-TED10-50-30-1.06	1060nm	3.0 x 7.0mm	300	30MHz	2.7	＞75
STBR-TED20-50-30-1.06	1060nm	3.0 x 14.0mm	600	30MHz	2.7	＞70
STBR-GPD-250-100	633nm	0.75 x 5.0mm	70	100MHz	0.57	70
STBR-GPD2-250-100	633nm	0.75 x 13.0mm	200	100MHz	0.57	40
STBR-GPD-350-200	633nm	0.75 x 5.0mm	140	200MHz	1.15	40
STBR-GPD2-350-200	633nm	0.75 x 13.0mm	400	200MHz	1.15	35
STBR-GPD-650-300	633nm	0.18 x 5.0mm	210	300MHz	2.25	40
STBR-GPD-800-400-SC	600-1600nm	0.18 x 4.2mm	400	400MHz	4.3	30
STBR-GPD2-800-400-SC	600-1600nm	0.18 x 8.4mm	800	400MHz	4.3	25
STBR-GPD-800-500	600-1600nm	0.076 x 5.0mm	350	500MHz	2.9	50
STBR-GPD-1500-1000	600-1600nm	0.075 x 6.3mm	250	1000MHz	5.7	15-20
STBR-LND-2500-1000	630/830nm	0.075 x 3.4mm	1000	1000MHz	10@630nm	10-15
STBR-IPD-200-50	1000-2100nm	0.75 x 6.0mm	50	50MHz	0.65	40
STBR-IPD-400-150	1000-2100nm	0.75 x 6.0mm	150	150MHz	1.95	35
STBR-IPD-600-200	1000-2100nm	0.18 x 6.0mm	200	200MHz	2.6	30
STBR-2DS-100-45-532	532+/-25nm	10.0 x 10.0mm	675 x 675	45MHz	2.3	＞40

Multi-channel Modulators

Acousto-optic multi-channel modulators (AOMC) allow multiple beams to be modulated or deflected independently by integrating an array of transducers with a single acousto-optic crystal. Our proprietary optical and electrical designs minimize crosstalk, allowing concurrent operation of up to 48 channels for modulation, and up to 8 channels for beam deflection. Our AOMCs are known for their reliable operation and high performance.

Multi-channel modulators have parallel beams as input, each beam independently controlled by a different transducer to modulate its intensity. Multi-channel modulators are most often used for high speed applications like micromachining and direct-write lithography, as each beam can be modulated independently.

These devices can also be used to increase throughput when writing large media by writing multiple beams at the same time. Our multi-channel modulators equal the performance available with our single channel modulators, and can be customized for large aperture applications as well as high speed, small aperture applications.

A multi-channel beam deflector however, generates multiple diffracted beams from a single input beam at specific locations by simultaneously applying multiple frequencies to a single transducer. Each inpidual channel is a deflector that can either scan the beam or produce multiple spots. This makes it possible to create a two-dimensional grid. For example, if a four channel beam deflector were configured so that each channel diffracted three spots, the result would be a 4x3 grid.

High laser damage threshold is achieved using low-scatter materials. These are inspected to rigorous quality standards. We grow our own tellurium dioxide and source high quality fused silica and crystalline quartz to ensure low insertion loss and excellent optical power handling.

Our standard models are below:

Model	Wavelength	Number of Channels	Rise/Fall Time	Active Aperture	Operating Frequency	Optical Material
AOMC 220-4	350-365 nm	4	16 ns	0.24 mm	190-250 MHz	Crystalline quartz
AOMC 125/24-3	350-365 nm	24	23 ns	0.5 mm	125 MHz	Crystalline quartz
AOMC 3160-8	364 nm	8	21 ns	0.18 mm	160 MHz	Fused silica
AOMC 300-5	413 nm	5	10 ns	0.2 mm	300 MHz	Crystalline quartz
AOMC 220-5	413 nm	5	16 ns	0.24 mm	220 MHz	Crystalline quartz
AOMC 3350-6	350-850 nm	6	30 ns	0.33 mm	350 MHz	Tellurium dioxide

Old Models of Acousto-optic Deflectors

An AO Deflector is a device that will scan an optical beam over a range of angles or accurately control the output angle of the beam. By altering the RF drive frequency to the Deflector, the deflection angle, i.e. the angle through which the diffracted beam is deviated, can be varied.

Effective AO Deflector design is complex, and involves choices of acousto-optic materials and the appropriate acoustic-mode depending upon the application. Commonly, resolution is the most important parameter for a deflector. However, high resolution generally comes at the expense of other parameters such as access time and efficiency. Thus it is important to effectively trade off the various performance requirements.

our strong team of scientists and engineers are available to assist you in selecting one of our standard products or providing a custom solution.

Typical applications include; Photolithography, laser tweezers, optical scanning, optical inspection and digital imaging.

Model	Brief Description	Recommended Driver
45035-3-6.5DEG-1.06	TeO2, 1064nm wavelength, 25-45MHz, 3mm aperture, 32mrad deflection, 90 spots resolution, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 64025-45-2ASVCO-1 64025-45-2AMVCO
45035-3-6.5DEG-1.06-XY	TeO2, 1064nm, 25-45MHz, 3mm aperture, 32mrad deflection, 90 spots resolution, 2W RF	64020-200-2ADSDFS-A-2 64020-200-2ADMDFS-A (2X) 64025-45-2ASVCO-2 64025-45-2AMVCO (2X)
45035-5-6.5DEG-1.06	TeO2, 1064nm, 25-45MHz, 5mm aperture, 56mrad deflection, 150 spots resolution, 4W RF	64020-200-4ADSDFS-A 64020-200-4ADMDFS-A 64025-45-4ASVCO-1 64025-45-4AMVCO
45035-5-6.5DEG-1.06-XY	TeO2, 1064nm, 25-45MHz, 5mm aperture, 56mrad deflection, 150 spots resolution, 4W RF	64020-200-4ADSDFS-A-2 64020-200-4ADMDFS-A (x2) 64025-45-4ASVCO-2 64025-45-4AMVCO (x2)
45050-5-6.5DEG-.8	TeO2, 780-850nm, 35-65MHz, 5mm aperture, 65mrad deflection, 225 spots resolution, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21035-65-2ASVCO-1 21035-65-2AMVCO
45050-5-6.5DEG-.8-XY	TeO2, 780-850nm, 35-65MHz, 5mm aperture, 65mrad deflection, 225 spots resolution, 2W RF	64020-200-2ADSDFS-A-2 64020-200-2ADMDFS-A (x2) 21035-65-2ASVCO-2 21035-65-2AMVCO (x2)
45050-6-.83	TeO2, 780-850nm, 35-65MHz, 6mm aperture, 68mrad deflection, 291 spots resolution, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 64035-65-2ASVCO-1 64035-65-2AMVCO
45070-5-6.5DEG-.63	TeO2, 633nm, 50-90MHz, 5mm aperture, 67mrad deflection, 300 spots resolution, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21050-90-2ASVCO 21050-90-2AMVCO
45070-5-6.5DEG-.63-XY	TeO2, 633nm, 50-90MHz, 5mm aperture, 67mrad deflection, 300 spots resolution, 2W RF	64020-200-2ADSDFS-A-2 64020-200-2ADMDFS-A (2x) 64050-90-2ASVCO-2 64050-90-2AMVCO (2x)
45070-6	TeO2, 633-850nm, 50-90MHz, 6mm aperture, 72mrad deflection, 388 spots resolution, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 64050-90-2ASVCO-1 64040-90-2AMVCO
45100-5-6.5DEG-.51	TeO2, 440-530nm, 75-125MHz, 5mm aperture, 78mrad deflection, 375 spots resolution, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 64075-125-2ASVCO-1 64075-125-2AMVCO
45100-5-6.5DEG-.51-XY	TeO2, 440-530nm, 75-125MHz, 5mm aperture, 78mrad deflection, 375 spots resolution, 2W RF	64020-200-2ADSDFS-A-2 64020-200-2ADMDFS-A (X2) 64075-125-2ASVCO-2 64075-125-2AMVCO (x2)
45100-6	TeO2, 440-530nm, 75-125MHz, 6mm aperture, 87mrad deflection, 485 spots resolution, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 64075-125-2ASVCO-1 64075-125-2AMVCO
45125-2/10-.355	Crystal Quartz, 355nm, 100-150MHz, 2x10mm aperture, 7.7mrad deflection, 60 spots resolution, 4W RF	64090-150-7ASVCO 64090-150-7AMVCO
46080-1/4-LTD	TeO2, 450-800nm, 60-100MHz, 1x4mm aperture, 14.6mrad deflection, 2W RF	64020-200-1ADSDFS-A 64020-200-1ADMDFS-A 21060-100-1ASVCO 21060-100-1AMVCO
46080-1-1.06-LTD	TeO2, 1064nm, 70-90MHz, 1mm aperture, 20mrad deflection, 1.5W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21065-95-2ASVCO 21065-95-2AMVCO
46080-1-.85-LTD	TeO2, 700-1100nm, 70-90MHz, 1mm aperture, 16mrad deflection, 1W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21065-95-1ASVCO 21065-95-1AMVCO
46080-1-LTD	TeO2, 450-800nm, 60-100MHz, 1x4mm aperture, 14.6mrad deflection, 1W RF	64020-200-1ADSDFS-A 64020-200-1ADMDFS-A 21060-100-1ASVCO 21060-100-1AMVCO
46080-2-1.06-LTD	TeO2, 1064nm, 70-90MHz, 2mm aperture, 20mrad deflection, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21065-95-2ASVCO 21065-95-2AMVCO
46080-2-.85-LTD	TeO2, 700-1100nm, 65-95MHz, 2mm aperture, 16mrad deflection, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21065-95-1ASVCO 21065-95-1AMVCO
46080-2-LTD	TeO2, 450-800nm, 60-100MHz, 2mm aperture, 14.6mrad deflection, 1.25W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21060-100-2ASVCO 21060-100-2AMVCO
46080-3-1.06-LTD	TeO2, 1064nm, 60-90MHz, 3mm aperture, 20mrad deflection, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21065-95-2ASVCO 21065-95-2AMVCO
46080-3-.85-LTD	TeO2, 700-1100nm, 65-95MHz, 3mm aperture, 16mrad deflection, 2W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21065-95-2ASVCO 21065-95-2AMVCO
46080-3-LTD	TeO2, 450-800nm, 60-100MHz, 3x4mm aperture, 14.6mrad deflection, 1.5W RF	64020-200-2ADSDFS-A 64020-200-2ADMDFS-A 21060-100-2ASVCO 21060-100-2AMVCO
46110-1-LTD	TeO2, 470-850nm, 90-130MHz, 1mm aperture, 16.3mrad deflection, 2W RF
46300-0.2/2-.36	Fused silica, 360nm, 225-375MHz, 0.2x2mm aperture, 18mrad deflection, 50 spots resolution, 3W RF	64200-380-5ASVCO 64200-380-5AMVCO
451000-GaP	GaP, 800-850nm, 750-1250MHz, 0.15x2mm aperture, 124mrad deflection, 0.25W RF
451000L	LiNbO3, 820nm, 750-1250MHz, 0.1x2.6mm aperture, 200 spots resolution, 124mrad deflection, 0.5mW RF
451500G	GaP, 820nm, 1500MHz, 0.07x1.33mm aperture, 112 spots resolution, 184mrad deflection, 100mW RF
D040-2G-BG2	TeO2, 1064nm, 30-50MHz, 2x5mm aperture, 3W RF
D075-2EF-KW1	TeO2, 630-780nm, 50-100MHz, 3x10mm aperture, 3W RF
D225-1B-OI1	Lead Molybdate, 488nm, 150-300MHz, 0.5mm x 28mm aperture, 1160 spots resolution, 20mrad deflection, 1.5W RF

Drivers for the Standard AO Deflection Systems / 1D and 2 D

Select the driver, which corresponds to the required frequency and RF drive power for the AO Deflector or Bragg Cell selected. Then select the method of control: VCO (Voltage Controlled Oscillator) or DFS (Digital frequency Synthesizer) and the type of package (Rack Mount System Box or OEM Module). The system box typically requires power of 100 to 240 Volts, 47 to 63 Hz AC. The OEM module requires you to supply DC power, + 15 Volts, and -5 Volts typically, at the required current to power the unit.

The new 64040-150-0.8ADSDFS-8X1 is an eight channel, frequency synthesized driver with the signals combined as one output for use with an Acousto-Optic Beam Deflector (AOBD). The Driver allows independent analog and digital (blanking) control of up to eight beams of light. The frequency and power for each channel can be selected from presets stored in internal memory or setup through the top panel keypad, the RS-232, or the USB. Internal memory contains a factory default setup and up to 16 user stored configurations.

45035-3-6.5DEG-1.06

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	1064 nm
Window Configuration	AR Coated
Static Transmission	＞ 97 %
Operating Frequency	25 to 45 MHz
Intensity Variation	< 2 dB
Diffraction Efficiency	＞ 65 % Midband with Linear polarization, parallel to acoustic propagation
Acoustic Aperture Size	3 mm
Process Time	4.5 μs
Resolution (T.BW product)	90 spots with no less than 50 μs scan time and full illumination of the aperture
Δ Deflection Angle	32 mrad
Deflection Angle	56 mrad @ 35 MHz
RF Power Level	2 watts
Impedance	50 ohms
VSWR	< 2:1 across band
Package	53B2024
Recommended Drivers	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 64025-45-2ASVCO-1 Analog Module Voltage Controlled Oscillator: 64025-45-2AMVCO

45035-3-6.5DEG-1.06-XY

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	1064 nm
Window Configuration	AR Coated
Static Transmission	＞ 97 %
Operating Frequency	25 to 45 MHz
Intensity Variation	< 2 dB
Diffraction Efficiency	＞ 65 % mid-band per device with linear polarization, parallel to acoustic propagation
Acoustic Aperture Size	3 mm
Process Time	4.5 μs
Resolution (T.BW product)	90 spots with no less than 50 μs scan time and full illumination of the aperture
Δ Deflection Angle	32 mrad
Deflection Angle	56 mrad @ 35 MHz
RF Power Level	< 2 watts
Impedance	50 ohms
VSWR	< 2:1 across band
Package 72003	53D1970
Recommended Drivers	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A-2 Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A (2X) Analog System Voltage Controlled Oscillator: 64025-45-2ASVCO-2 Analog Module Voltage Controlled Oscillator: 64025-45-2AMVCO (2X)

45035-5-6.5DEG-1.06

Interactive Material	TeO2
Acoustic Mode	Shear wave
Operating Wavelength	1064 nm
Window Configuration	AR Coated
Static Transmission	＞ 97 %
Operating Frequency	25-45 MHz
Intensity Variation	< 2 dB
Diffraction Efficiency	＞ 60 % Midband with linear polarization, parallel to acoustic propagation
Active Aperture	5 mm
Process Time	7.5 μs
Resolution (T.BW product)	150 spots with no less than 60 μs scan time and full illumination of the aperture
Δ Deflection Angle	32 mrad (25 - 45 MHz)
Deflection angle	56 mrad @ 35 MHz
RF power level	4 watts
Impedance	50 ohms nominal
VSWR	< 2:1 across band
Package	53B2024
Recommended Drivers	Analog System Digital Frequency Synthesizer: 64020-200-4ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-4ADMDFS-A Analog System Voltage Controlled Oscillator: 64025-45-4ASVCO-1 Analog Module Voltage Controlled Oscillator: 64025-45-4AMVCO

45035-5-6.5DEG-1.06-XY

Interaction Material	TeO2
Acoustic Mode	Shear
Operating Wavelength	1064 nm
Window Configuration	AR Coated
Static Transmission	＞ 98%
Operating Frequency	25-45 MHz
Intensity Variation	2 dB
Diffraction Efficiency	≥ 65 % mid-band per device with linear polarization, parallel to acoustic propagation
Acoustic Aperture Size	5 mm
Process Time	7.5 μs
Resolution (T.BW product)	150 spots with no less than 60μs scan time and full illumination of the aperture
Acoustic Velocity	66 mm / μs
Δ Deflection Angle	32 mrad
Deflection Angle	56 mrad @ 35 MHz
RF Power Level	4 watt max
Impedance	50 ohms
VSWR	< 2:1
Package	53D1970
Recommended Drivers	Analog synthesized driver system: 64020-200-4ADSDFS-A-2 Analog synthesized driver modules: 64020-200-4ADMDFS-A (x2) Analog System Voltage Controlled Oscillator: 64025-45-4ASVCO-2 Analog Module Voltage Controlled Oscillator: 64025-45-4AMVCO (x2)

45050-5-6.5DEG-.8

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	780 to 850 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	35 to 65 MHz.
Intensity Variation	2 dB
Diffraction Efficiency	＞ 70 % Midband with linear polarization, parallel to acoustic propagation
Acoustic Aperture Size	5mm
Process Time	7.5 μs
Resolution (T.BW product)	225 spots with no less than 60 μs scan time and full illumination of the aperture
Δ Deflection Angle	39 mrad @ 850 nm
Deflection Angle	65 mrad @ 50MHz, 850 nm
RF Power Level	2 watts maximum
Impedance	50 ohms
VSWR	< 2:1 across band
Package	53B2024
Recommended Driver	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21035-65-2ASVCO-1 Analog Module Voltage Controlled Oscillator: 21035-65-2AMVCO

45050-5-6.5DEG-.8-XY

Interactive Material	TeO2
Acoustic Mode	Shear
Operating Wavelength	780 to 850 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	35 to 65 MHz.
Intensity Variation	2 dB
Diffraction Efficiency	＞ 70 % mid-band per device with linear polarization, parallel to acoustic propagation
Acoustic Aperture Size	5 mm
Process Time	7.5 μs
Resolution (T.BW product)	225 spots with no less than 60 μs scan time and full illumination of the aperture
Acoustic Velocity	0.66 mm/μs
Δ Deflection Angle	39 mrad @ 850 nm
Deflection Angle	5 mrad @ 50 MHz, 850 nm
RF Power Level	2 watts max
Impedance	50 ohms
VSWR	< 2:1
Package	53D1970
Recommended Drivers	Analog synthesized driver system: 64020-200-2ADSDFS-A-2 Analog synthesized driver modules: 64020-200-2ADMDFS-A (x2) Analog System Voltage Controlled Oscillator: 21035-65-2ASVCO-2 Analog Module Voltage Controlled Oscillator: 21035-65-2AMVCO (x2)

45050-6-.83

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	780 to 850 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	35 to 65 MHz.
Diffraction Efficiency	＞ 60 % Midband with polarization circular or linear
Intensity Variation	< 2.5 dB
Acoustic Aperture Size	6 mm
Processing Time	9.7 μs
Resolution (T.BW. product)	291 spots with no less than 70 μs scan time and full illumination of the aperture
Δ Deflection Angle	41 mrad @ 850 nm
Deflection Angle	68 mrad @ 50MHz, 850 nm
RF Power Level	2 watts
Impedance	50 ohms
VSWR	<2.5:1 Across Bandwidth
Package:	53B2024
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 64035-65-2ASVCO-1 Analog Module Voltage Controlled Oscillator: 64035-65-2AMVCO

45070-5-6.5DEG-.63

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	633 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	50 to 90 MHz.
Diffraction Efficiency	＞ 70% Midband with polarization, parallel to acoustic propagation
Intensity Variation	< 2 dB
Acoustic Aperture Size	5mm
Processing Time	7.5 μs
Resolution (T.BW. product)	300 spots with no less than 60 μs scan time and full illumination of the aperture
Δ Deflection Angle	38mrad @ 633 nm
Deflection Angle	67mrad @ 633 nm
RF Power Level	2 watts
Impedance	50 ohms
VSWR	<2:1 Across Bandwidth
Package:	53B2024
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21050-90-2ASVCO Analog Module Voltage Controlled Oscillator: 21050-90-2AMVCO

45070-5-6.5DEG-.63-XY

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	633 nm
Window Configuration	AR Coated
Static Transmission	＞ 98 %
Operating Frequency	50 to 90 MHz.
Intensity Variation	2 dB
Diffraction Efficiency	＞ 55 % Midband per Device with linear polarization, parallel to acoustic propagation
Acoustic Aperture Size	5 mm
Process Time	7.5 μs
Resolution (T.BW product)	300 spots with no less than 60 μs scan time and full illumination of the aperture
Δ Deflection Angle	38 mrad @ 633 nm
Deflection Angle	67 mrad @ 633 nm
RF Power Level	2 watt maximum per Device
Impedance	50 ohms
VSWR	< 2:1 across band
Package:	53B2024
Recommended Driver:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A-2 Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A (2x) Analog System Voltage Controlled Oscillator: 64050-90-2ASVCO-2 Analog Module Voltage Controlled Oscillator: 64050-90-2AMVCO (2x)

45070-6

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	633 to 850 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	50 to 90 MHz
Diffraction Efficiency	＞ 60 % Midband with polarization circular or linear
Intensity Variation	< 2.5 dB
Acoustic Aperture Size	6 mm
Processing Time	9.7 μs
Resolution (T.BW. product)	388 spots with no less than 70 μs scan time and full illumination of the aperture
Deflection Angle	72 mrad @ 633 nm
Δ Deflection Angle	41 mrad @ 633 nm
RF Power Level	2 watts
Impedance	50 ohms
VSWR	< 2.5:1 Across Bandwidth
Package:	53B2024
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 64050-90-2ASVCO-1 Analog Module Voltage Controlled Oscillator: 64040-90-2AMVCO

45100-5-6.5DEG-.51

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	440 to 530 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	75 to 125 MHz.
Intensity Variation	2 dB
Diffraction Efficiency	＞ 70 % Midband with linear polarization, parallel to acoustic propagation
Acoustic Aperture Size	5 mm
Process Time	7.5 μs
Resolution (T.BW product)	375 spots with no less than 60 μs scan time and full illumination of the aperture
Δ Deflection Angle	39 mrad @ 514 nm
Deflection Angle	78 mrad @ 100 MHz, 514 nm
RF Power Level	2 watt maximum
Impedance	50 ohms
VSWR	< 2:1 across band
Package:	53B2024
Recommended Driver:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 64075-125-2ASVCO-1 Analog Module Voltage Controlled Oscillator: 64075-125-2AMVCO

45100-5-6.5DEG-.51-XY

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	440 to 530 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	75 to 125 MHz.
Intensity Variation	2 dB
Diffraction Efficiency	＞70 % Midband per Device
Light Polarization	Linear, parallel to acoustic propagation
Acoustic Aperture Size	5 mm
Process Time	7.5 μs
Resolution (T.BW product)	375 spots with no less than 60 μs scan time and full illumination of the aperture
Δ Deflection Angle	39 mrad @ 514 nm
Deflection Angle	78 mrad @ 100 MHz, 514 nm
RF Power Level	2 watt maximum per Device
Impedance	50 ohms
VSWR	< 2:1 across band
Package:	53D1970
Recommended Driver:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A-2 Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A (X2) Analog System Voltage Controlled Oscillator: 64075-125-2ASVCO-2 Analog Module Voltage Controlled Oscillator: 64075-125-2AMVCO (x2)

45100-6

Interactive Material	TeO2
Acoustic Mode	Shear Wave
Operating Wavelength	440 to 530 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	75 to 125 MHz
Intensity Variation	3 dB
Diffraction Efficiency	＞ 60 % Midband with polarization circular or linear
Acoustic Aperture Size	6 mm
Processing Time	9.7 μs
Resolution (T.BW. product)	485 spots with no less than 70 μs scan time and full illumination of the aperture
Deflection Angle	87 mrad @ 530 nm, @ 100 MHz
Δ Deflection Angle	41 mrad @ 530 nm
RF Power Leve	2 watts
Impedance	50 ohms
VSWR	< 2.5:1 Across Bandwidth
Package:	53B2024
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 64075-125-2ASVCO-1 Analog Module Voltage Controlled Oscillator: 64075-125-2AMVCO

45125-2/10-.355

Interactive Material	Crystal Quartz
Acoustic Mode	Longitudinal
Operating Wavelength	355nm
Window Configuration	AR Coated
Static Transmission	＞ 97 %
Operating Frequency	100 to 150 MHz
Intensity Variation	<1 dB
Diffraction Efficiency	＞ 75 %, midband
Light Polarization	Linear, perpendicular to acoustic propagation
Acoustic Aperture Size	2x10mm
Processing Time	1.25us with 7.2mm beam size in acoustic direction
Resolution (T.BW. product)	60 spots
Deflection Angle	7.7mrad @ 125MHz
Δ Deflection Angle	3mrad
RF Power Leve	4 watts
Impedance	50 ohms
VSWR	< 1.5:1 Across Bandwidth
Package:	53B1289
Recommended Drivers:	Analog System Voltage Controlled Oscillator: 64090-150-7ASVCO Analog Module Voltage Controlled Oscillator: 64090-150-7AMVCO

46080-1/4-LTD

Interactive Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	450-800nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	60 to 100 MHz
Intensity Variation	<2 dB across the bandwidth
Diffraction Efficiency	＞80%, midband with linear polarized light, perpendicular to acoustic propagation or with random polarized light
Acoustic Aperture Size	1mm high x 4mm in acoustic direction
Rise Time	150ns/mm beam dia
Δ Deflection Angle	7.3mrad @ 780nm, 4.5mrad @ 488nm
Deflection Angle	14.6 mrad @ 780nm @ 80MHz, 9.1mrad @ 488nm @ 80MHz

RF Power Leve	<1 watts @ 780nm
Impedance	50 ohms
VSWR	< 2:1 Across Bandwidth
Package:	53B0624TO1
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-1ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-1ADMDFS-A Analog System Voltage Controlled Oscillator: 21060-100-1ASVCO Analog Module Voltage Controlled Oscillator: 21060-100-1AMVCO

46080-1-1.06-LTD

Interaction Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	1.06 μm
Window Configuration	AR coated
Static Transmission	＞97%
Operating Frequency	70-90 MHz
Intensity Variation	< 2.5 dB across bandwidth
Diffraction Efficiency (midband)	＞ 75 % midband with linear polarization, perpendicular to acoustic propagation, ＞ 70 % midband with random polarization.
Acoustic Aperture Size	1.0 mm
Rise Time	150 nsec/mm beam diameter
Δ Deflection Angle	7.5 mrad
Deflection Angle	20 mrad @ 80 MHz
RF Power Level	< 1.5 watts
Impedance	50 ohms nominal
VSWR	< 1.5:1 across bandwidth
Package	53B0624 T01
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21065-95-2ASVCO Analog Module Voltage Controlled Oscillator: 21065-95-2AMVCO

46080-1-.85-LTD

Interactive Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	700 to 1100 nm
Window Configuration	AR Coated
Static Transmission	＞95 %
Operating Frequency	65–95 MHz
Intensity Variation	< 1.5 dB @ 780 nm
Diffraction Efficiency (midband)	＞ 70 % midband with linear polarization, perpendicular to acoustic propagation, ＞ 65 % midband with random polarization.
Acoustic Aperture Size	1 mm
Rise Time	150 nsec/mm beam dia.
Δ Deflection Angle	4 mrad @
Deflection Angle	16 mrad @ 80 MHz and 850 nm
RF Power Level	< 1 watt @ 850 nm
Impedance	50 ohms nominal
VSWR	< 1.5:1 over bandwidth
Package	53B0624
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21065-95-1ASVCO Analog Module Voltage Controlled Oscillator: 21065-95-1AMVCO

46080-1-LTD

Interaction Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	450-800 nm
Window Configuration	AR coated
Static Transmission	＞95 %
Operating Frequency	60-100 MHz
Intensity Variation	< 2 dB
Diffraction Efficiency	＞80 % midband with linear polarized light perpendicular to acoustic propagation or with random polarized light
Acoustic Aperture Size	1 x 4mm
Rise Time	150 ns / mm beam dia.
Δ Deflection Angle	7.3 mrad @ 780 nm; 4.5 mrad @ 488 nm
Deflection Angle	14.6 mrad @ 780 nm @ 80 MHz; 9.1 mrad @ 488 nm @ 80 MHz
RF Power Level	< 1 watt @ 780 nm
Impedance	50 Ω nominal
VSWR	<2:1 across bandwidth
Package	53B0624
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-1ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-1ADMDFS-A Analog System Voltage Controlled Oscillator: 21060-100-1ASVCO Analog Module Voltage Controlled Oscillator: 21060-100-1AMVCO

46080-2-1.06-LTD

Interaction Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	1064 nm
Static Transmission	＞ 97 %
Window Configuration	AR coated
Operating Frequency	70-90 MHz
Intensity Variation	< 2.5 dB across bandwidth
Diffraction Efficiency (midband)	＞ 75 % midband with linear polarization, perpendicular to acoustic propagation, ＞ 70 % midband with random polarization.
Acoustic Aperture Size	2 mm
Rise Time	150 ns/mm beam dia.
Δ Deflection Angle	7.5 mrad
Deflection Angle	20 mrad
RF Power Level	< 2 watts
Impedance	50 ohms nominal
VSWR	<1.5:1 across bandwidth
Package	53B0624 TO2
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21065-95-2ASVCO Analog Module Voltage Controlled Oscillator: 21065-95-2AMVCO

46080-2-.85-LTD

Interactive Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	700 to 1100 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	65–95 MHz
Intensity Variation	< 1.5 dB @ 780 nm
Diffraction Efficiency (midband)	＞ 70 % midband with linear polarization, perpendicular to acoustic propagation, ＞ 65 % midband with random polarization.
Acoustic Aperture Size	2 mm
Rise Time	150 nsec/mm beam dia.
Δ Deflection Angle	4 mrad @ 850 nm
Deflection Angle	16 mrad @ 80 MHz and 850 nm
RF Power Level	< 2 watts @ 850 nm
Impedance	50 ohms nominal
VSWR	< 1.5:1 over bandwidth
Package	53B0624
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21065-95-1ASVCO Analog Module Voltage Controlled Oscillator: 21065-95-1AMVCO

46080-2-LTD

Interaction Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	450-800 nm
Window Configuration	AR coated
Static Transmission	＞95 %
Operating Frequency	60-100 MHz
Intensity Variation	< 2 dB
Diffraction Efficiency	＞80 % midband with linear polarized light perpendicular to acoustic propagation or with random polarized light
Acoustic Aperture Size	2 mm
Rise Time	150 ns / mm beam dia.
Δ Deflection Angle	7.3 mrad @ 780 nm; 4.5 mrad @ 488 nm
Deflection Angle	14.6 mrad @ 780 nm @ 80 MHz; 9.1 mrad @ 488 nm @ 80 MHz
RF Power Level	< 1.25 watt @ 780 nm
Impedance	50 Ω nominal
VSWR	<2:1 across bandwidth
Package	53B0624
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21060-100-2ASVCO Analog Module Voltage Controlled Oscillator: 21060-100-2AMVCO

46080-3-1.06-LTD

Interaction Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	1064nm
Window Configuration	AR coated
Static Transmission	＞97%
Operating Frequency	60-90 MHz
Intensity Variation	< 2.5 dB across bandwidth
Diffraction Efficiency	＞70 % midband with linear polarization, perpendicular to acoustic propagation, ＞65% midband with random polarization.
Acoustic Aperture Size	3 mm
Rise Time	150 ns / mm beam dia.
Δ Deflection Angle	7.5mrad
Deflection Angle	20mrad
RF Power Level	<2watts
Impedance	50 Ω nominal
VSWR	<1.5:1 across bandwidth
Package	53B0624 TO2
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21065-95-2ASVCO Analog Module Voltage Controlled Oscillator: 21065-95-2AMVCO

46080-3-.85-LTD

Interactive Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	700 to 1100 nm
Window Configuration	AR Coated
Static Transmission	＞ 95 %
Operating Frequency	65–95 MHz
Intensity Variation	< 1.5 dB @ 780 nm
Diffraction Efficiency (midband)	＞ 70 % midband with linear polarization, perpendicular to acoustic propagation, ＞ 65 % midband with random polarization.
Acoustic Aperture Size	3 mm
Rise Time	150 nsec/mm beam dia.
Δ Deflection Angle	4 mrad @ 850 nm
Deflection Angle	16 mrad @ 80 MHz and 850 nm
RF Power Level	2 watts @ 850 nm
Impedance	50 ohms nominal
VSWR	< 1.5:1 over bandwidth
Package	53B0624
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21065-95-2ASVCO Analog Module Voltage Controlled Oscillator: 21065-95-2AMVCO

46080-3-LTD

Interaction Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	450-800 nm
Window Configuration	AR coated
Static Transmission	＞95 %
Operating Frequency	60-100 MHz
Intensity Variation	< 2 dB
Diffraction Efficiency	＞80 % midband with linear polarized light perpendicular to acoustic propagation or with random polarized light
Acoustic Aperture Size	3 x 4 mm
Rise Time	150 ns / mm beam dia.
Δ Deflection Angle	7.3 mrad @ 780 nm; 4.5 mrad @ 488 nm
Deflection Angle	14.6 mrad @ 780 nm @ 80 MHz; 9.1 mrad @ 488 nm @ 80 MHz
RF Power Level	< 1.5 watt @ 780 nm
Impedance	50 Ω nominal
VSWR	<2:1 across bandwidth
Package	53B0624
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21060-100-2ASVCO Analog Module Voltage Controlled Oscillator: 21060-100-2AMVCO

46110-1-LTD

Interaction Material	TeO2
Acoustic Mode	Longitudinal
Operating Wavelength	470-850 nm
Window Configuration	AR coated
Operating Frequency	90-130 MHz
Intensity Variation	< 2 dB
Diffraction Efficiency	＞85% midband with linear polarization perpendicular to acoustic propagation, ＞80% midband with random polarization
Acoustic Aperture Size	1mm
Rise Time	150 ns / mm beam dia.
Δ Deflection Angle	15.9 mrad @ 633nm
Deflection Angle	16.3 mrad @ 633nm
RF Power Level	< 1.25 watts
Impedance	50 Ω nominal
VSWR	<2:1 across bandwidth
Package	53B0624
Recommended Drivers:	Analog System Digital Frequency Synthesizer: 64020-200-2ADSDFS-A Analog Module Digital Frequency Synthesizer: 64020-200-2ADMDFS-A Analog System Voltage Controlled Oscillator: 21090-130-2ASVCO Analog Module Voltage Controlled Oscillator: 21090-130-2AMVCO

46300-0.2/2-.36

Interactive Material	Fused Silica
Acoustic Mode	Longitudinal
Operating Wavelength	360 nm
Window Configuration	AR coated
Static Transmission	＞97%
Operating Frequency	225-375 MHz
Intensity Variation	<1 dB
Diffraction Efficiency	＞70%, midband next to transducer, with linear polarized light perpendicular to acoustic propagation
Acoustic Aperture Size	0.2mm (H) x 2mm (near field distance along acoustic propagation direction)
Process Time	0.33 μs with 2mm beam size in acoustic direction
Resolution (T.BW product)	50 spots
Δ Deflection Angle	9 mrad
Deflection Angle	18 mrad @ 300 MHz
RF Power Level	<3 watts
Impedance	50 ohms
VSWR	<2:1 across bandwidth
Package	53B1354
Recommended Drivers:	Analog System Voltage Controlled Oscillator: 64200-380-5ASVCO Analog Module Voltage Controlled Oscillator: 64200-380-5AMVCO

451000-GaP

Interaction Material	GaP
Acoustic Mode	Longitudinal
Operating Wavelength	800-850 nm
Window Configuration	AR coated
Static Transmission	80%
Operating Frequency	750-1250 MHz
Intensity Variation	3 dB
Diffraction Efficiency	5% per watt minimum midband with linear polarized light parallel to acoustic propagation
Acoustic Aperture Size	150 μm x 2mm
Aperture Time	300 nsec
Optical Waist Height	80 μm
Δ Deflection Angle	62 mrad @ 830 nm
Deflection Angle	124 mrad @ 830 nm
RF Power Level	<.25 Watts nominal can withstand 1 watt maximum
Impedance	50 Ohms nominal
VSWR	<3:1 across bandwidth
Package	53B0504

451000L

Interactive Material	LiNbO3
Acoustic Mode	Longitudinal
Operating Wavelength	820 nm
Window Configuration	AR Coated
Static Transmission	＞95 %
Operating Frequency	750 to 1250 MHz
Diffraction Efficiency	1% / Watt minimum with light linear polarized, perpendicular to acoustic propagation.
Acoustic Aperture Size	100 um x 2.6 mm
Process Time	400 ns
Resolution (T.BW product)	200 spots
Deflection Angle	124 mrad @ 1000 MHz
ΔDeflection Angle	62 mrad
RF Power Level	< 0.5 mW average, 1 Watt peak with duty cycle of 5 % with pulse width ,<1 ms.
Impedance	50 Ohms
VSWR	3:1 across band maximum
Package:	53B0504

451500G

Interactive Material	GaP
Acoustic Mode	Longitudinal
Operating Wavelength	820 nm
Window Configuration	AR Coated
Static Transmission	＞95 %
Center Frequency	1500 MHz
Bandwidth	560 MHz
Diffraction Efficiency	5 % / Watt minimum with light polarized Linear parallel to acoustic propagation.
Acoustic Aperture Size	70 _m X 1.33 mm
Process Time	0.2 us
Resolution (T.BW product)	112 spots
ΔDeflection Angle	69 mrad @ 820 nm
Deflection Angle	184 nm @ 820 nm
RF Power Level	<100 mW ave,1 Watt peak @10 % duty < 1 ms pulse width.
Impedance	50 Ohms
VSWR	< 3 :1
Package:	53B0504

D040-2G-BG2

Interactive Material	TeO2
Operating Wavelength	1064 nm
Damage Threshold	100MW/cm2
AR Coating Reflectivity	<0.2% per surface
Center RF Frequency (f0)	40MHz
Frequency Range	20 MHz
Acoustic Aperture	2mm X 5 mm
Length (optical direction)	32mm
Diffraction Efficiency	＞80% @ f0 , ＞50% for 30MHz<f <50MHz
RF Power Level	~3W

D075-2EF-KW1

Interactive Material	TeO2
Acoustic Mode	Slow shear
Operating Wavelength	630-780 nm
RF Drive Frequency	50-100MHz
Optical Faces	AR Coated, R<0.5%
Acoustic Aperture	3.0m x 10 mm min (hxd)
Polarization	Linear, horizontal with respect to base
Resolution	750 resolvable spots (Rayleigh criterion)
Scan Angle range @630nm	~3° (2.9°-4.9°)
Access Time	16us
Diffraction Efficiency	＞50%
Diffraction Efficiency Variation	<10% @ 633nm
RF Power Level	<3.0W

AO DeflectorD225-1B-OI1

A high performance AO Deflector operating at 488nm, manufactured with superior flatness and parallelism of optical faces to yield minimal wavefront distortion. A scan angle of 20mrad with 1160 spots resolution (Rayleigh criteria) and 7.7μs access time make this device ideally suited for high resolution imaging and reprographic applications.

Interaction Material	Lead Molybdate
Acoustic Mode	Isotropic
Wavelength	488nm
Polarisation	Any
Anti-Reflection Coating	< 0.2% per surface
Transmission	＞ 93%
Frequency	150MHz to 300MHz
Active Aperture	0.5mm x 28mm
Scan Angle	20mrad
Access Time	7.7μs
Acoustic Velocity	3630m/s
Resolution (Rayleigh Criteria)	1160 spots
Diffraction Efficiency	＞ 50% (at centre of aperture)
RF Power	< 1.5W