FiberBench Optic Mounts & Wall Plates

Overview
Vernier Scales
Feedback

Thorlabs offers several component modules that can be used to mount numerous precision optical components. These modules can then be easily integrated into a FiberBench system, and position optics at a consistent beam height of 0.56" (14.2 mm). In each case, the module is designed with two steel dowel pins on its underside that fit into the receiving holes on the FiberBench. Once inserted, the design of the mount ensures that the optic will be at the appropriate height for use within the free-space subsystem.

Tip/Tilt Rotation Mount
Free Space Isolator Mount
Static Mounting Platform
EO Modulator Mount

Universal Base
Wall Plates: FiberPort Compatible
Wall Plates: Cage Compatible
Adapters: Optomech FiberBench Mount

Adapters: 30 mm Cage System Mount
Adapters: Post-Mountable

FiberBench Accessories
FiberPorts	Optic Mounts	Alignment Tools	Polarizers
Beamsplitter Modules	Mirror Modules	Rotating Wave Plates	FiberBenches

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Figure 1: An example of how to read a vernier scale. The red arrow indicates what is known as the pointer. Since the tick mark labeled 10 on the vernier scale aligns with one of the tick marks on the main scale, this vernier scale is reading 75.60 (in whatever units the tool measures).

Reading a Vernier Scale

Vernier scales are typically used to add precision to standard, evenly divided scales (such as the scale on Thorlabs' rotation mounts). A vernier scale has found common use in many precision measurement tools, the most common being calipers and micrometers. The direct vernier scale uses two scales side-by-side: the main scale and the vernier scale. The vernier scale has a slightly smaller spacing between its tick marks (10% smaller than the main). Hence, the lines on the main scale will not line up with all the lines on the vernier scale. Only one line from the vernier scale will match well with one line of the main scale, and that is the trick to reading a vernier scale.

Figures 1 through 3 show a vernier scale system for three different situations. In each case, the scale on the left is the main scale, while the small scale on the right is the vernier scale. When reading a vernier scale, the main scale is used for the gross number, and the vernier scale gives the precision value. In this manner, a standard ruler or micrometer can become a precision tool.

The 0 on the vernier scale is the "pointer" (marked by a red arrow in Figs. 1 - 3) and will indicate the main scale reading. In Figure 1 we see the pointer is lined up directly with the 75.6 line. Notice that the only other vernier scale tick mark that lines up well with the main scale is 10. Since the vernier 0 lines up with the main scale’s 75.6, the reading from Figure 1 is 75.60 (in whatever units the tool measures in).

That is essentially all there is to reading a vernier scale. It's a very straightforward way of increasing the precision of a measurement tool. To expound, let’s look at Figure 2. Here we see that the pointer is no longer aligned with a scale line, instead it is slightly above 75.6, but below 75.7; thus the gross measurement is 75.6. The first vernier line that coincides with a main scale line is the 5, shown with a blue arrow. The vernier scale gives the final digit of precision; since the 5 is aligned to the main scale, the precision measurement for Figure 2 is 75.65.

Since the vernier scale is 10% smaller than the main scale, moving 1/10 of the main scale will align the next vernier marking. This asks the obvious question: what if the measurement is within the 1/10 precision of the vernier scale? Figure 3 shows just this. Again, the pointer line is in between 75.6 and 75.7, yielding the gross measurement of 75.6. If we look closely, we see that the vernier 7 (marked with a blue arrow) is very closely aligned to the main scale, giving a precision measurement of 75.67. However, the vernier 7 is very slightly above the main scale mark, and we can see that the vernier 8 (directly above 7) is slightly below its corresponding main scale mark. Hence, the scale on Figure 3 could be read as 75.673 ± 0.002. A reading error of about 0.002 would be appropriate for this tool.

As we've seen here, vernier scales add precision to a standard scale measurement. While it takes a bit of getting used to, with a little practice, reading these scales is fairly straightforward. All vernier scales, direct or retrograde, are read in the same fashion.

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Figure 2: An Example of a vernier scale. The red arrow indicates the pointer and the blue arrow indicates the vernier line that matches the main scale. This scale reads 75.65.

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Figure 3: An Example of a vernier scale. The red arrow indicates the pointer and the blue arrow indicates the vernier line that matches the main scale. This scale reads 75.67, but can be accurately read as 75.673 ± 0.002.

Posted Comments:

user (posted 2019-11-29 07:55:19.647)

Hello, I have a question about FBTP. Let me inform what are the maximum and minimum thickness of which a plate can be mounted. I'd like to mount a 1.05 mm thick plate object, is it possible?

llamb (posted 2019-12-03 10:24:44.0)

Thank you for your feedback. Since the FBTP requires epoxy to mount a plate optic, there is no minimum thickness requirement. The slot is manufactured to a minimum width of 1.092 mm, so we would recommend 1.09 mm as a very maximum thickness. Your 1.05 mm thick plate will indeed fit.

Gabriel Puebla-Hellmann (posted 2019-10-22 09:04:35.32)

Is it possible to get the FBTP without the Dowel Pins?

YLohia (posted 2019-10-22 11:42:04.0)

Thank you for contacting Thorlabs. Custom items can be requested by emailing techsupport@thorlabs.com. I have reached out to you directly to discuss the possibility of offering this.

anthony.horton (posted 2017-05-30 15:40:08.097)

FiberBench/FiberPort compatible diaphragm shutter? We have a optical system supplied by a 3rd party vendor and we'd like to add a diaphragm shutter to the output. The output is via a PAFA-X-4-A FiberPort mounted on a HCA3 end plate on the end of an FT-51X76 FiberBench. Unfortunately there don't seem to be any FibreBench/FibrePort compatible diaphragm shutters. The SHB025 1/4" shutter seems almost ideal, except it is slightly larger than the aperture in the HCA3 and there are no adaptors for attaching it to the FiberBench. Is there a solution using existing parts, or plans to introduce one? Photo of the system into which we want to add the shutter: https://drhotdog.smugmug.com/Other/Laser-comb/n-nj2wRX/i-sRGGrj3/A (the output is on the right)

tfrisch (posted 2017-06-22 09:02:52.0)

Hello, thank you for contacting Thorlabs. It looks like you have already been in contact with our Tech Support Team about SHB025 mounted in SHCP025 which can be mounted to the end of a fiber bench using HCA3-CP.

hyub.lee (posted 2016-11-25 16:59:04.833)

Hello. I have a question about Kinematic FiberBench Tip/Tilt Rotation Mount for 12.7 mm × 1 mm (W × T) Plate Optics. I'd like to purchase the product for longpass(or shortpass) dichroic mirror mounting.(e.g. DMLP950R) I am using a fiber-bench with two inputs(976nm, and 500-700 nm) and one output, which is a T-shape fiber-bench system, and I want to install DMLP950R into it using this rotation mount. I think the thickness of DMLP950R is suitable to be installed (1mm), but H x W is 36 x 25 mm, which is larger than 12. 7mm. However, I think if the mirror is installed although the mirror size is larger than 12.7mm, I'd like to buy it. Can you advise about this issue? Thanks.

tfrisch (posted 2016-11-30 10:11:04.0)

Hello, thank you for contacting Thorlabs. We can offer custom sizes of dichroic mirrors that will fit in our FiberBench compatible mounts. Our Tech Support staff will contact you directly with a quote.

Ø1/2" Optic Rotation Mount

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The FBR mount has a rotation lock screw (0.050" hex) and engraved scale with 2° increments.

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Item #	Qty	Description
FBP-A-FC	1	Adjustable Fiber-to-Fiber Coupler, 350 - 700 nm, FC/PC or FC/APC
FBR	1	FiberBench Rotation Mount for Ø1/2" Optics
SM05L05	1	SM05 Lens Tube, 0.50" Thread Depth, One Retaining Ring Included

FBR Shown Holding a 1/2" Long Ø1/2" Lens Tube, Mounted on an FB-51 FiberBench

Continuous 360° Rotation with Locking Setscrew
Direct Read 2° Graduations Engraved on the Edge of the Rotation Dial
Mount Ø1/2" (Ø12.7 mm) Optics up to 0.17" (4 mm) Thick
Ø0.45" (Ø11.4 mm) Clear Aperture
SM05-Threaded (0.535"-40) for Compatibility with Ø1/2" Lens Tubes
Optics Secured with Included SM05RR Retaining Ring

The FBR FiberBench-compatible rotation mount has a knurled edge and 360° laser-engraved scale marked at 2° increments. It is SM05-threaded (0.535"-40) for mounting optics, Ø1/2" lens tubes, and other SM05-threaded components. This mount is ideal for holding our Ø1/2" polarizers and wave plates (when removed from their Ø1" mounting cell). The mount's rotating cell has A convenient top-located setscrew (0.050" hex) secures the rotational position of the stage.

Ø1/2" Optic High-Precision Rotation Mount

Ø1/2in Optic High-Precision Rotation Mount

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The side of the FBRP mount features an engagement screw (0.028" hex) and actuator (0.050" hex).

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Item #	Qty	Description
FB-51	1	Single-Axis FiberBench, L = 51 mm, 5 Positions
HCA3-SM1	2	FiberBench Wall Plate, FiberPort Compatible, Internally SM1-Threaded
PAF2-A4B	2	Achromatic FiberPort, FC/PC & FC/APC, f = 4.0 mm, 600 - 1050 nm, Ø0.87 mm Waist
FBRP	1	FiberBench High-Precision Rotation Mount with Vernier Scale for Ø1/2" Optics
WPHSM05-780	1	Ø1/2" Zero-Order Half-Wave Plate, SM05-Threaded Mount, 780 nm

Align a waveplate to control the polarization angle between two fibers.

Continuous 360° Rotation
Direct Read 2° Graduations Engraved on the Edge of the Rotation Dial
±5.5° of Fine Adjuster-Driven Rotation when Engaged
Vernier Scale with 10 arcmin Resolution
Mount Ø1/2" (Ø12.7 mm) Optics up to 0.23" (5.8 mm) Thick
Ø0.43" (Ø10.9 mm) Clear Aperture
SM05-Threaded (0.535"-40) For Compatibility with Ø1/2" Lens Tubes
Optics Secured with Included POLARIS-SM05RR Retaining Ring

The FBRP stainless steel, FiberBench-compatible rotation mount. The mount's SM05-threaded (0.535"-40) rotating cell has a knurled edge for coarse positioning. After fastening the engagement screw with a 0.028" hex key, the cell can be precisely positioned by turning the actuator at the top of the part with a 0.050" hex key. As the graduations engraved on the cell are 2°, values read from the vernier scale can be converted to arcmins by multiplying by a factor of two. Mount Ø1/2" optics, Ø1/2" lens tubes, and other SM05-threaded components.

This mount is ideal for holding our Ø1/2" polarizers and wave plates (when removed from their Ø1" mounting cell). We also offer FiberBench Polarization Modules and FiberBench Rotating Wave Plate Modules, which have linear polarizers, quarter-wave plates, or half-wave plates pre-mounted in FBRP rotation mounts.

Ø1/2" Lens Tube Mount

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Item #	Qty	Description
FB-51	1	Single-Axis FiberBench, L = 51 mm, 5 Positions
HCA3	1	FiberBench Wall Plate, FiberPort Compatible
PAF2-4E	1	FiberPort, FC/PC & FC/APC, f=4.0 mm, 2.0 - 5.0 µm, Ø1.17 mm Waist
FBS05	1	FiberBench Ø1/2" Lens Tube Mount
SM05L10	1	SM05 Lens Tube, 1" Thread Depth, One Retaining Ring Included

Mounts a Ø1/2" Lens Tube to a FiberBench
Nylon-Tipped 8-32 Setscrew for Locking Lens Tube in Place

The FBS05 lens tube mount can hold Ø1/2" lens tubes at a beam height of 0.56" (14.2 mm) and enables the incorporation of Ø1/2" optical elements into the FiberBench system. A Ø1/2" lens tube can slip into the FBS05 and then be locked in place with the nylon-tipped 8-32 setscrew located at the top of the mount. The two dowel pins on the mount easily fit into the receiving holes on any of our Single-Axis or Multi-Axis FiberBenches.

Ø1/2" Optic Mount

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FT-SM05 Optic Mount on an FB-38 FiberBench

Holds Ø1/2" Optics Up to 3.9 mm Thick*
SM05 Retaining Ring Included
Ø11 mm Clear Aperture

The FT-SM05 optics mount is designed to hold Ø1/2" optics (ND filters, diffusers, colored filters, and the VRC2D05 alignment disk) while maintaining the appropriate beam height when placed on a FiberBench. It features our standard SM05 thread (0.535"-40).

*This specification is true for relatively flat lenses. For lenses with small focal lengths, and hence large lens curvatures, please contact Tech Support to ensure a proper fit.

Kinematic Tip/Tilt and Rotation Mounts

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Kinematic FiberBench Mount Features

Use for 5 mm Cube or 1 mm Thick Plate Optics
±3° Tip/Tilt Adjustment via Three M2.5 x 0.2 Precision Adjusters
360° Continuous Rotation with ±12° Fine Adjustment
Four Locking Collars and a Spanner Wrench are Included
Additional Locking Collars Available Separately
Please Contact Tech Support for Custom Mounting Options

These tip/tilt rotation FiberBench mounts are designed to mount either 5 mm cube optics, such as polarizing or non-polarizing beamsplitter cubes, (item # FBTC) or 1 mm thick plate optics up to 12.7 mm (0.5") wide, such as beamsplitters or mirrors, (item # FBTP) while maintaining the appropriate beam height. Both versions require epoxy to mount optical components. The circular rotation plate can be rotated a full 360° and is engraved with a scale marked every 5°. Additionally, a Vernier scale provides 1° resolution for fine rotation. These mounts do not suffer from left/right handedness restrictions, and thus can be used in any orientation on a FiberBench.

An engraved dot is present on the FBTP Plate Optic Mount between the 0° and 90° engravings. Beamsplitter optics should be installed with the beamsplitter coating facing this dot. This allows an incident beam to be aligned so that it is split at the center of the mount.

These mounts allow for tip, tilt, and rotational adjustment for precision beam alignment and steering control. Three screws control the tip/tilt of the mount (see Figure 1), yielding up to ±3° of adjustment. Additionally, these screws can also provide some vertical adjustment when all three screws are rotated by the same amount. A physical stop prevents the tip/tilt springs from being overextended. When engaged, the fine rotation adjustment screw (see Figure 1) gives up to ±12° adjustment. All adjustment screws use a 0.05" hex key, which is included with these mounts. Furthermore, they can be locked into position (see Figure 2) with a spanner wrench to prevent accidental movement. The necessary spanner wrench (SPW403) is included; simply insert the included hex key through the spanner wrench, and while holding the adjustment screw static, use the spanner wrench to tighten the locking nut (see Figure 3).

Additional locking collars and spanner wrenches are also available for purchase separately. If desired, two locking collars can be used together to create a hard stop (see Figure 4). Alternatively, a single collar can be epoxied to an adjuster using our G14250 epoxy to create a permanent hard stop.

We also offer post-mountable versions of these mounts with 8-32 (M4) taps for general mounting of optics on Ø1/2" Posts.

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Figure 1: These are the adjuster locations on the FBTC mount. The FBTP has its adjustment screws in the same locations.

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Figure 2: A single locking collar can lock an adjuster in position.

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Figure 3: Use the included hex key and spanner wrench to lock an adjustment screw in place.

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Figure 4: Two collars can be locked together to create a hard stop.

Free-Space Isolator Mount

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Item #	Qty	Description
FT-51X60	1	Multi-Axis FiberBench, 51 mm x 60 mm, 4 Ports, 16 Positions
HCA3	2	FiberBench Wall Plate, FiberPort Compatible
PAF2-2B	2	FiberPort, FC/PC & FC/APC, f=2.0 mm, 600 - 1050 nm, Ø0.43 mm Waist
H1C	1	FiberBench Adapter for Ø0.865" Free Space Isolators
IO-2D-633-VLP	1	Free-Space Isolator, 633 nm, Ø1.8 mm Max Beam, 0.3 W Max

Optical Isolator Mounted in FiberBench Assembly

Mounts Isolators that have a 0.865" Outer Diameter
Aligns Optical Axis with Free-Space Isolator

This mount secures our Free-Space Isolators with an outer diameter of 0.865" to our FiberBench series, aligning the optical axis with the isolator. The mount is compatible with all of our FiberBenches.

Compatible Isolators:

Static Mounting Platform

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The HCB platform is used in our PBB-VIS-10-L Beam Displacer Module.

Use for Fixed Mounting of a Variety of Optical Elements
Approximately 1.5 mm from Beam Centerline to Top Surface

The HCB Static Mounting Base allows a user-supplied optic to be secured to the top surface with epoxy and then inserted at the correct height into a FiberBench setup. Once inserted into the receiving holes of the FiberBench , the distance from the top surface of the platform to the point at which the source beam will strike the optic is approximately 1.5 mm. The figure to the right shows Thorlabs' PBB Polarizer attached to the HCB base.

EO Modulator Mount

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Item #	Qty	Description
FT-38X100	1	Multi-Axis FiberBench, 38 mm x 100 mm, 5 Ports, 12 Positions
HCA3	2	FiberBench Wall Plate, FiberPort Compatible
PAF2-2B	2	FiberPort, FC/PC & FC/APC, f=2.0 mm, 600 - 1050 nm, Ø0.43 mm Waist
FT-EOMA	1	Adapter Bracket for EO Modulators and FiberBenches or PY005(/M) Stage
EO-AM-NR-C1	1	EO Amplitude Modulator, Wavelength: 600 - 900 nm
FBR-LPNIR	1	Rotating Linear Polarizer Module, 650 - 2000 nm, Ø2.5 mm CA

EO Modulator Mounted in a FiberBench

Adapter Plate Mounts an EO Modulator in the Beam Path
4 Tapped Holes for Mounting the Modulator (Screws Included)
Alignment Pins for Mounting to any FiberBench Over 70 mm Long
Mounting Screws Included

The FT-EOMA is a mounting bracket used to mount an Electro-Optic (EO) Modulator onto a FiberBench. The length of the bench needs to be at least 70 mm in the direction you wish to mount the modulator. Incorporation of the optional EO Modulator optic mount and polarizer (EO-GTH5M) will require a longer FiberBench. The Linear Polarizer modules are well suited for use with an EO Modulator in a FiberBench System.

Universal Component Base

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BPD254S-G Polka Dot Beamsplitter Mounted in a UCB on an FB-51 FiberBench

Used for Mounting Square Filters, Mirrors, or Windows
Non-Marring Nylon Construction
Accepts Optics Up to 15 mm Thick

The UCB Universal Component Base is designed to secure a square optic, while maintaining the appropriate beam height, for use in a FiberBench system. Optics up to 15 mm thick can be secured into place using two nylon thumbscrews.

FiberBench Wall Plates: FiberPort Compatible

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Item #	Qty	Description
FT-51X60	1	Multi-Axis FiberBench, 51 mm x 60 mm, 4 Ports, 16 Positions
HCA3	2	FiberBench Wall Plate, FiberPort Compatible
PAF2-4E	1	FiberPort, FC/PC & FC/APC, f=4.0 mm, 2.0 - 5.0 µm, Ø1.17 mm Waist

FiberBench with HCA3 Wall Plates
and FiberPort

Mounts to the Edge of Thorlabs' FiberBenches
HCA3 and HCA3-SM1 Mount a FiberPort Collimator/Coupler
HCA3-SM1 has an SM1-Threaded (1.035"-40) Port

These Wall Plates can be attached to the sides of a FiberBench using the two included 8-32 mounting screws. The HCA3 and HCA3-SM1 are used to mount FiberPorts to FiberBenches using the four included 2-56 screws (see photo to the right). The HCA3-SM1 is internally SM1 (1.035"-40) threaded for compatibility with our Ø1" Lens Tubes and other SM1-threaded devices such as Thorlabs' Photodetectors. Each wall plate includes screws for mounting to our FiberBenches and the SM-threaded wall plates each include one retaining ring.

FiberBench Wall Plates: Cage System Adapters

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The HCA3-CP is used to combine a FiberBench and a 30 mm Cage System for a power sampling application. The beamsplitter picks off some of the incoming light and sends it through a polarizer to a detector, allowing the polarization state of light entering the fiber to be monitored.

Components

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The HCA3-CP FiberBench Adapter Plate accepts cage rods for 16 mm and 30 mm Cage Systems.

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View Imperial Product List

Item #	Qty	Description
Imperial Product List
SP02	1	Compact Cage Plate with SM05 Thread for a 16 mm Cage System (SM05RR Included)
HCA3-CP	1	FiberBench Wall Plate, 16 mm and 30 mm Cage Plate, Internal SM05 Threads
HCA3	1	FiberBench Wall Plate, FiberPort Compatible
PAF2A-11A	1	FiberPort, FC/APC, f=11.0 mm, 350 - 700 nm, Ø1.80 mm Waist
FBR	3	FiberBench Rotation Mount for Ø1/2" Optics
FB-51	1	Single-Axis FiberBench, L = 51 mm, 5 Positions
SR4	4	Compact Cage Assembly Rod, 4" Long, Ø4 mm
MS1R	1	Mini-Series Optical Post, Ø6 mm, L = 1"
MSH075	1	Swivel-Base Mini-Series Post Holder, 3/4" (19 mm) Tall, #4 (M3) Slot

View Metric Product List

Item #	Qty	Description
Metric Product List
SP02	1	Compact Cage Plate with SM05 Thread for a 16 mm Cage System (SM05RR Included)
HCA3-CP	1	FiberBench Wall Plate, 16 mm and 30 mm Cage Plate, Internal SM05 Threads
HCA3	1	FiberBench Wall Plate, FiberPort Compatible
PAF2A-11A	1	FiberPort, FC/APC, f=11.0 mm, 350 - 700 nm, Ø1.80 mm Waist
FBR	3	FiberBench Rotation Mount for Ø1/2" Optics
FB-51	1	Single-Axis FiberBench, L = 51 mm, 5 Positions
SR4	4	Compact Cage Assembly Rod, 4" Long, Ø4 mm
MS1R/M	1	Mini-Series Optical Post, Ø6 mm, L = 25 mm
MSH075	1	Swivel-Base Mini-Series Post Holder, 3/4" (19 mm) Tall, #4 (M3) Slot

Output from a fiber passes through a FiberBench-based polarization controller before entering a 16 mm cage system through the HCA3-CP.

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Item #	Qty	Description
Product List
FB-51	1	Single-Axis FiberBench, L = 51 mm, 5 Positions
HCA3-SM05	1	FiberBench Wall Plate, 16 mm Cage System Compatible, Internal SM05 Threads
HCA3	1	FiberBench Wall Plate, FiberPort Compatible
PAF2-4E	1	FiberPort, FC/PC & FC/APC, f=4.0 mm, 2.0 - 5.0 µm, Ø1.17 mm Waist
FBR	1	FiberBench Rotation Mount for Ø1/2" Optics
ER2-P4	1	Cage Assembly Rod, 2" Long, Ø6 mm, 4 Pack
SM05L10	1	SM05 Lens Tube, 1" Thread Depth, One Retaining Ring Included

FiberBench with FiberPort, HCA3-SM05 Wall Plate, 16 mm Cage System, and Ø1/2" Lens Tube

Mounts to the Edge of Thorlabs' FiberBenches
HCA3-CP is Compatible with Thorlabs' 16 mm and 30 mm Cage Systems
HCA3-SM05 has 4-40 Taps to Accept Cage Rods from Thorlabs' 16 mm Cage System
SM05 (0.535"-40) Thread for Compatibility with Ø1/2" Lens Tubes

These Wall Plates allow FiberBenches to be combined with Thorlabs' Cage Systems. They can be attached to the sides of a FiberBench using the two included 8-32 mounting screws. The HCA3-SM05 features four 4-40 taps and is internally SM05- threaded (0.535"-40) for compatibility with our 16 mm Cage System and Ø1/2" Lens Tubes, respectively (see photo to the right).

The HCA3-CP can accept cage rods for 30 mm and 16 mm cage systems either simultaneously or separately. Three #8 counterbores on the bottom of the plate allow it to be mounted to one of Thorlabs' FiberBenches. The plate accepts Ø4 mm or Ø6 mm cage rods for 16 mm or 30 mm cage systems, respectively. The Ø4 mm cage rods are held in place for by locking screws that accept a 0.05" (1.3 mm) hex key. The Ø6 mm cage rods are secured using a flexure mechanism that can be tightened by a single locking screw on each side of the mount that accepts 5/64" (2.0 mm) hex keys. The port through the center is SM05-threaded, allowing it to accept lens tubes or other threaded optical components.

When combining a FiberBench with a cage system, make sure that the FiberBench is properly supported to avoid applying excess torque to the cage rods. If the cage system is low enough, the FiberBench can rest directly on the optical table. For segments of the cage system that are elevated off of the optical table, the FiberBench can be supported using a Ø1" optical post threaded into the 8-32 or M4 tap in the base.

Each wall plate includes screws for mounting to our FiberBenches. The HCA3-SM05 ships with one SM05RR retaining ring to aid in securing SM05-threaded components, while the HCA3-CP ships with two retaining SM05RR rings to secure unmounted optics up to 0.21" (5.3 mm) thick, such as Thorlabs' Premium Hard-Coated Bandpass Filters.

FiberBench Adapter: Mount for Standard Optomechanical Components

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Mirror Mount Secured to FiberBench with FT-MMAC

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Item #	Qty	Description
FB-51	1	Single-Axis FiberBench, L = 51 mm, 5 Positions
FT-MMAC	1	FiberBench Adapter for Standard Optomech Components
KS05	1	Ø1/2" Precision Kinematic Mirror Mount, 3 Adjusters, 8-32 Taps
HCA3	1	FiberBench Wall Plate, FiberPort Compatible
PAF2-2B	1	FiberPort, FC/PC & FC/APC, f=2.0 mm, 600 - 1050 nm, Ø0.43 mm Waist

A KS05 mirror mount positioned on a fiber bench with a FT-MMAC.

For Mounting a Mirror Mount to FiberBench
Mounting Screws Included

The FT-MMAC is ideal for mounting mirror mounts (or any 8-32 threaded mount) to the side of our FiberBenches. The FT-MMAC comes with all the screws necessary to mount it to the bench (two 8-32 shoulder screws) and to the mirror mount (one 8-32 and one M4). The FT-MMAC can be used to position a wide variety of our precision, smooth bore, or compact mirror mounts. Additionally, users can mount one of our VH1 V-clamps with this versatile adapter.

FiberBench Adapter: 30 mm Cage System Mount for FiberBench Components

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Item #	Qty	Description
PAF2-4E	1	FiberPort, FC/PC & FC/APC, f=4.0 mm, 2.0 - 5.0 µm, Ø1.17 mm Waist
CP08FP	1	FiberPort Adapter for 30 mm Cage System, Enhanced Clamping
ER6-P4	1	Cage Assembly Rod, 6" Long, Ø6 mm, 4 Pack
CPFB	2	30 mm Cage System Mount for FiberBench Components, 8-32 Tap
FBR	2	FiberBench Rotation Mount for Ø1/2" Optics
KCB1	1	Right-Angle Kinematic Mirror Mount with Tapped Cage Rod Holes, 30 mm Cage System and SM1 Compatible, 8-32 and 1/4"-20 Mounting Holes

View Metric Product List

Item #	Qty	Description
PAF2-4E	1	FiberPort, FC/PC & FC/APC, f=4.0 mm, 2.0 - 5.0 µm, Ø1.17 mm Waist
CP08FP	1	FiberPort Adapter for 30 mm Cage System, Enhanced Clamping
ER6-P4	1	Cage Assembly Rod, 6" Long, Ø6 mm, 4 Pack
CPFB/M	2	30 mm Cage System Mount for FiberBench Components, M4 Tap
FBR	2	FiberBench Rotation Mount for Ø1/2" Optics
KCB1/M	1	Right-Angle Kinematic Mirror Mount with Tapped Cage Rod Holes, 30 mm Cage System and SM1 Compatible, M4 and M6 Mounting Holes

Two FBR FiberBench Rotation Mounts Secured by CPFB Mounts in a 30 mm Cage System

Mount FiberBench Components in a 30 mm Cage System
Quick-Release Snap-In Flexure Mechanism for Integration Into 30 mm Cage Systems
Post Mountable via 8-32 (M4) Tap

This 30 mm Cage System Mount for FiberBench Components allows integration of our line of FiberBench Components with our 30 mm cage system. It includes two through holes that fit the dowel pins on our FiberBench optic mounts. Once the dowels have been inserted, they can be locked in position using a 0.035" balldriver or hex key to tighten the setscrew on the front face of the mount.

The mount includes two snap-in flexure clamps for attaching our Ø6 mm cage rods, which can be locked with a 5/64" (2.0 mm) hex key. This snap-in feature allows components to be easily inserted and removed without disassembling the entire cage system. When this mount is used in a cage system that is attached to a FiberBench with the HCA3-CP cage plate, the beam height for all optical components is the same. An 8-32 (M4) tapped hole on the bottom of the CPFB mount can be used to secure it to a Ø1/2" post. Please note that this cage system mount cannot be used with FiberBench optic mounts that are more than 0.75" (19.1 mm) wide in the direction perpendicular to the optical axis.

Compatible FiberBench Accessories
Optic Mounts (Compatible with FBR, FT-SM05, FBTP, and HCB)	Alignment Tools	Polarizers
Beamsplitter Modules	Mirror Modules	Rotating Wave Plates

FiberBench Adapter: Post-Mountable Adapter for FiberBench Accessories

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FBR-AH1 on an FBA Post Mounting Adapter

Use FiberBench Components for Free-Space Applications
Mount FiberBench Accessories with Dowel Pins to Ø1/2" Posts
#2-56 Setscrew for Locking Accessory in Place (Hex Key Included)

Thorlabs' FBA (/M) FiberBench Adapter Mounts can be used to secure compatible FiberBench accessories to Ø1/2" Posts. The FBA can be mounted to a Ø1/2" post via the 8-32 (M4) tapped hole that goes through the center of the adapter. This freedom to mount individual pieces to a post gives the user the option of using the compact FiberBench accessories for free space applications.

The adapter is designed to be compatible with FiberBench accessories that have two steel dowel pins on their underside. These pins fit into the receiving holes on the adapter, and the 2-56 setscrew on the side of the adapter can be used to lock the FiberBench accessory in position.

Compatible FiberBench Accessories
Optic Mounts (Compatible with FBR, FBS05, FT-SM05, FBTP, H1C, HCB, and UCB)	Alignment Tools	Polarizers
Beamsplitter Modules	Mirror Modules	Rotating Wave Plates

View All »Matching Part Numbers

FiberBench Optic Mounts & Wall Plates

FiberBench Components Featured Below:

Reading a Vernier Scale

Ø1/2" Optic Rotation Mount

Ø1/2" Optic High-Precision Rotation Mount

Ø1/2" Lens Tube Mount

Ø1/2" Optic Mount

Kinematic Tip/Tilt and Rotation Mounts

Free-Space Isolator Mount

Static Mounting Platform

EO Modulator Mount

Universal Component Base

FiberBench Wall Plates: FiberPort Compatible

FiberBench Wall Plates: Cage System Adapters

FiberBench Adapter: Mount for Standard Optomechanical Components

FiberBench Adapter: 30 mm Cage System Mount for FiberBench Components

FiberBench Adapter: Post-Mountable Adapter for FiberBench Accessories