Accessories
Accessory Guides
This limit sensor can be used to set the home position for systems driven by Zaber’s X-NMS and X-NMS-E series products. It comes with a magnet for triggering home or away positions and has a 30 cm cable with an M5 right-angle connector This Hall effect sensor fits 5 mm T-slots, and can be mounted to 40 mm T-slots using the AP187 or AP265.
This limit sensor can be used to set the home position for systems driven by Zaber’s X-NMS and X-NMS-E series products. It comes with a magnet for triggering home or away positions and has a 149 cm cable with an M5 right-angle connector This Hall effect sensor fits 5 mm T-slots, and can be mounted to 40 mm T-slots using the AP187 or AP265.
This limit sensor can be used to set the home position for systems driven by Zaber’s NMS series products. It comes with a magnet for triggering home or away positions and has a 50 cm cable with an M5 connector. It is designed for use with Zaber’s LC40 and LRU-E linear stages. This Hall effect sensor fits 5 mm T-slots, and can be mounted to 40 mm T-slots using the AP187 or AP265.
This limit sensor can be used to set the home position for systems driven by Zaber’s NMS series products. It comes with a magnet for triggering home or away positions and has a 150 cm cable with an M5 connector. It is designed for use with Zaber’s LC40 and LRU-E linear stages. This Hall effect sensor fits 5 mm T-slots, and can be mounted to 40 mm T-slots using the AP187 or AP265.
This 15 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the X-MCA controller, and motorized devices with T3, T4, T3A, or T4A terminations. It can also be used to extend MC10T3(Lxxx) cables. For different cable lengths see the MC03L060 or MC03L300.
This 15 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the X-MCA controller, and motorized devices with T3, T4, T3A, or T4A terminations. It can also be used to extend MC10T3(Lxxx) cables. For different cable lengths see the MC03 or MC03L300. To extend this cable, connect with multiples of MC03.
This 15 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the X-MCA controller, and motorized devices with T3, T4, T3A, or T4A terminations. It can also be used to extend MC10T3(Lxxx) cables. For different cable lengths see the MC03 or MC03L060. To extend this cable, connect with multiples of MC03.
This 15 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the X-MCA controller, and motorized devices with T3, T4, T3A, or T4A terminations. It can also be used to extend MC10T3(Lxxx) cables. For different cable lengths see the MC03 or MC03L060. To extend this cable, connect with multiples of MC03.
This 26 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T10A or T12A terminations. For different cable lengths see MC10L060, MC10L300, or MC10L450. To extend this cable, connect with multiples of MC10. Minimum bend radius when frequently flexing is 75 mm.
This 26 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T10A or T12A terminations. For different cable lengths see MC10, MC10L300, or MC10L450. To extend this cable, connect with multiples of MC10. Minimum bend radius when frequently flexing is 75 mm.
This 26 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T10A or T12A terminations. For different cable lengths see MC10, MC10L060, or MC10L450. To extend this cable, connect with multiples of MC10. Minimum bend radius when frequently flexing is 75 mm.
This 26 pin D-sub male to female extension cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T10A or T12A terminations. For different cable lengths see MC10, MC10L060, or MC10L300. To extend this cable, connect with multiples of MC10. Minimum bend radius when frequently flexing is 75 mm.
This 26 pin D-sub male to 15 pin D-sub female conversion cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T3A, T4A, or T11A terminations. For different cable lengths see the MC10T3L060, MC10T3L300, or MC10T3L450. To extend this cable, connect with multiples of MC03.
This 26 pin D-sub male to 15 pin D-sub female conversion cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T3A, T4A, or T11A terminations. For different cable lengths see MC10T3, MC10T3L300, or MC10T3L450. To extend this cable, connect with multiples of MC03.
This 26 pin D-sub male to 15 pin D-sub female conversion cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T3A/T4A/T11A terminations. For different cable lengths see the MC10T3, MC10T3L060, or MC10T3L450. To extend this cable, connect with multiples of MC03.
This 26 pin D-sub male to 15 pin D-sub female conversion cable is designed for signal integrity and flex life, featuring separate bundles for signals and power transmission, and dedicated twisted pairs for differential signals. Thumbscrews on male and female connectors provide locking connections to the MCC family controllers, and motorized devices with T3A, T4A, or T11A terminations. For different cable lengths see the MC10T3, MC10T3L060, or MC10T3L300. To extend this cable, connect with multiples of MC03.
This 4-pin T-coded M12 male to female extension cable provides a shielded power connection. Threaded locking mechanisms on male and female connectors provide secure connections to the MCC family of controllers, and motorized devices with T11A or T12A terminations. In addition to this cable, an MC10T3 cable is also required for sensor connections. For longer cable lengths, see MC12L300. To extend this cable, connect with multiples of MC12. Minimum bend radius when frequently flexing is 75 mm.
This 4-pin T-coded M12 male to female extension cable provides a shielded power connection. Threaded locking mechanisms on male and female connectors provide secure connections to the MCC family of controllers, and motorized devices with T11A or T12A terminations. In addition to this cable, an MC10T3L300 cable is also required for sensor connections. For shorter cable lengths, see MC12. To extend this cable, connect with multiples of MC12. Minimum bend radius when frequently flexing is 75 mm.
This 5 ft (1.5 m), 5-pin male to female M8 extension cable allows the LED cables from MLR and MLT microscope illuminators to be extended. This cable is required for most upright microscope applications and for some MLT transmitted illuminators. Use our microscope configurator to ensure you get the correct cables for your microscope.
This 8 inch (200 mm) conversion cable has an M8 male connector on one end and a 6 pin mini-din female connector on the other. It allows an A-Series (except A-MCB2) or T-Series product to connect in a daisy-chain after an X-Series product. The cable only transfers communication; the devices on each end of the conversion cable must have their own power supplies.
For use with select X-Series and E-Series products. This is a standard USB A to B cable to go from the computer to the device.
For use with select X-Series and E-Series products. This is a standard USB A to B cable to go from the computer to the device.
This 1 ft (0.3 m), 4-pin male to female M8 extension cable daisy-chains smaller X-Series products. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 1 ft (0.3 m) 4-pin male to female M8 extension cable daisy-chains X-Series devices where space near the connector is limited. The female connection bends at a compound angle of 90 degrees and 45 degrees. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 1 ft (0.3 m) 4-pin male to female M8 extension cable daisy-chains X-Series devices where space near the connector is limited. Both the female and male connections bend at a compound angle of 90 degrees and 45 degrees. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 2 ft (0.6 m), 4-pin male to female M8 extension cable daisy-chains smaller X-Series products. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 2 ft (0.6 m) 4-pin male to female M8 extension cable daisy-chains X-Series devices where space near the connector is limited. The female connection bends at a compound angle of 90 degrees and 45 degrees. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 2 ft (0.6 m) 4-pin male to female M8 extension cable daisy-chains X-Series devices where space near the connector is limited. Both the female and male connections bend at a compound angle of 90 degrees and 45 degrees. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 2 ft (0.6 m) 4-pin male to female M8 extension cable daisy-chains X-Series devices where space near the connector is limited. The male connection bends at a compound angle of 90 degrees and 45 degrees. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This is a 2 ft (0.6 m) 4-pin male to female M8 cable for data only connections. It breaks the power connection between X-Series products, allowing products on both sides of the cable to be powered independently. Use the X-DC02 or X-DC06 to daisy chain both power and data between devices.
This 6 ft (2 m), 4-pin male to female M8 extension cable daisy-chains smaller X-Series products. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 15 ft (4.5 m), 4-pin male to female M8 extension cable daisy-chains smaller X-Series products. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 25 ft (7.6 m), 4-pin male to female M8 extension cable daisy-chains smaller X-Series products. It is designed to handle flexing in motion applications. The maximum current carrying capacity of the cable is 4.0 Amps.
This 6 ft (2 m) M8 female to RS-232 female conversion cable allows an X-Series product to connect to the RS-232 serial port on a computer. Only one X-SDC cable is needed per X-Series daisy chain.
This 8 inch (200 mm) conversion cable has a 6 pin mini-din male connector on one end and an M8 female connector on the other. It allows an X-Series product to connect in a daisy-chain after an A-Series (except A-MCB2) or T-Series product. The cable only transfers communication; the devices on each end of the conversion cable must have their own power supplies.
This 6 ft (2 m) M8 female to USB-A conversion cable allows an X-Series product to connect to the USB port on a computer. Only one X-USBDC is needed per X-Series daisy-chain. See the Software page for the driver download.
This FLIR Blackfly camera features Sony’s IMX249 2.3 MP monochrome sensor (colour sensor available). It offers outstanding value for low light imaging applications such as multi-channel fluorescence, with a quantum efficiency of 70% at 525 nm and a 13 mm diagonal sensor area. A high speed USB 3.1 connection (included) provides frame rates up to 41 FPS. This camera uses a standard C-mount interface.
The MTC00C is a camera tube designed to interface with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC00C is straight (no folding mirror) making it suitable for use with upright microscope systems such as the MSR. The MTC00C features an integrated Carl Zeiss tube lens, and is compatible with Zeiss infinity corrected objective lenses. The MTC00C tube lens provides a tube lens-to-objective distance (infinity space) of 106 mm. For a longer distance, please see MTC00D.
The MTC00C is designed to interface with Zaber's CC01 or any C-mount camera. The camera interface uses the Zeiss 60N adapter standard, making it compatible with magnified camera tubes to accommodate a variety of sensor sizes. The camera tube is adjustable in XY and features a locking swivel to easily set the camera rotation, the MTC00C adjustments come factory calibrated to ensure field centering and parfocality.
The MTC00D camera tube interfaces with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC00D is straight (no folding mirror) making it suitable for use with upright microscope systems such as the MSR. The MTC00D features an integrated Carl Zeiss tube lens, and it is compatible with Zeiss infinity corrected objective lenses. The MTC00D tube lens provides a tube lens-to-objective distance (infinity space) of 142 mm, which allows room for optional modules like the MJB25 junction blocks. For a shorter distance, please see MTC00C.
The MTC00D is designed to interface with Zaber’s CC01 or any C-mount camera. The camera interface uses the Zeiss 60N adaptor standard, making it compatible with magnified camera tubes to accommodate a variety of sensor sizes. The camera tube is adjustable in XY and features a locking swivel to easily set the camera rotation, the MTC00D adjustments come factory calibrated to ensure field centering and parfocality.
The MTC00E is a trinocular eyepiece and camera tube. It interfaces with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The MTC00E is intended for use with upright microscope systems, such as the MSR. It features an integrated Carl Zeiss tube lens, and it is compatible with Zeiss infinity corrected objective lenses.
The MTC00E is designed to interface with Zaber’s CC01 or any C-mount camera. A manual switch selects either the camera or eyepieces with 100% of the image forming light directed to the selected path.
The MTC00L camera tube interfaces with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC00N is straight (no folding mirror) making it suitable for use with upright microscope systems such as the MSR. The MTC00L features an integrated Olympus (Evident) tube lens, and it is compatible with Olympus (Evident) infinity corrected objective lenses.
The MTC00N camera tube interfaces with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC00N is straight (no folding mirror) making it suitable for use with upright microscope systems such as the MSR. The MTC00N features an integrated Nikon tube lens, and it is compatible with Nikon CFI60 and Olympus infinity corrected objective lenses.
The MTC00N is designed to interface with Zaber’s CC01 or any C-mount camera. The camera interface uses the Zeiss 60N adaptor standard, making it compatible with magnified camera tubes to accommodate a variety of sensor sizes. The camera tube is adjustable in XY and features a locking swivel to easily set the camera rotation, the MTC00N adjustments come factory calibrated to ensure field centering and parfocality.
The MTC90C is a camera tube designed to interface with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC90C is folded 90 degrees, allowing this camera tube to be used in compact inverted microscope systems, such as the MVR. The MTC90C features an integrated Carl Zeiss tube lens, and it is compatible with Zeiss infinity corrected objective lenses. The MTC90C tube lens provides a tube lens-to-objective distance (infinity space) of 106 mm. For a longer distance, please see MTC90D.
The MTC90C is designed to interface with Zaber’s CC01 or any C-mount camera. The camera interface uses the Zeiss 60N adaptor standard, making it compatible with magnified camera tubes to accommodate a variety of sensor sizes. The camera tube is adjustable in XY and features a locking swivel to easily set the camera rotation, the MTC90C adjustments come factory calibrated to ensure field centering and parfocality.
The MTC90D is a camera tube designed to interface with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC90D is folded 90 degrees, allowing this camera tube to be used in compact inverted microscope systems, such as the MVR. The MTC90D features an integrated Carl Zeiss tube lens, and it is compatible with Zeiss infinity corrected objective lenses. The MTC90D tubes lens provides a tube lens-to-objective distance (infinity space) of 142 mm, which allows room for optional modules like the MJB25 junction blocks. For a shorter distance, please see MTC90C.
The MTC90D is designed to interface with Zaber’s CC01 or any C-mount camera. The camera interface uses the Zeiss 60N adaptor standard, making it compatible with magnified camera tubes to accommodate a variety of sensor sizes. The camera tube is adjustable in XY and features a locking swivel to easily set the camera rotation, the MTC90D adjustments come factory calibrated to ensure field centering and parfocality.
The MTC90L is a camera tube designed to interface with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC90L is folded 90 degrees, allowing this camera tube to be used in compact inverted microscope systems, such as the MVR. The MTC90L features an integrated Olympus (Evident) tube lens, and it is compatible with Olympus (Evident) infinity corrected objective lenses.
The MTC90N is a camera tube designed to interface with the X-FCR06C motorized filter cube turret via a 57 mm circular dovetail. The optical axis of the MTC90N is folded 90 degrees, allowing this camera tube to be used in compact inverted microscope systems, such as the MVR. The MTC90N features an integrated Nikon tube lens, and it is compatible with Nikon CFI60 infinity corrected objective lenses.
The MTC90N is designed to interface with Zaber’s CC01 or any C-mount camera. The camera interface uses the Zeiss 60N adaptor standard, making it compatible with magnified camera tubes to accommodate a variety of sensor sizes. The camera tube is adjustable in XY and features a locking swivel to easily set the camera rotation, the MTC90N adjustments come factory calibrated to ensure field centering and parfocality.
This thermistor-based temperature sensor was designed for use with the X-SCA4 controller and is intended for precision applications. The probe is capable of measuring temperatures from -20°C to + 130°C range. The thermistors and reading circuit have a combined ±0.3°C accuracy within the temperature range 5 to 50°C.
This component acts as an interface between any Zaber device and an Arduino Uno R3, Mega R3, or Uno R4. It allows for Arduino Serial Monitor debugging while communicating with Zaber devices. T-Series and A-Series products need a serial adaptor cable. (T-XDC or S-XDC). Getting Started (Tutorial and Software Examples), Hardware Overview (Details of Hardware Behavior).
This device adds power into the serial daisy-chain for Zaber's X-Series devices. This allows the user to route a single cable to devices for both power and data transfer in applications where reducing the number of cables to a device is desirable, or routing power is not an option.
This filter holder carries 10 lens filters to be used in any FWR06 device. It comes pre-installed with magnets to allow homing and wheel detection when installed in an FWR06 filter wheel. Mounting fasteners and retaining rings are included.
This filter holder carries 7 lens filters to be used in any FWR06 device. It comes pre-installed with magnets to allow homing and wheel detection when installed in an FWR06 filter wheel. Mounting fasteners and retaining rings are included.
This bracket enables one LSM linear stage to mount vertically to another LSM stage as part of a multi-axis system. They can also be used to mount the X-NA series linear actuator to an LSM stage and include M6 threaded holes for generic mounting. Fasteners are included.
This bracket enables one LSM-V linear stage to mount vertically to another LSM-V stage as part of a multi-axis system. They can also be used to mount the X-NA-SV series linear actuator to an LSM-V stage and include M6 threaded holes for generic mounting. Fasteners are included.
This angle bracket allows vertical mounting on top of a linear stage, creating a multi-axis system. It provides extra stiffness for heavy loads and longer stages. The AB104 is compatible with a number of Zaber stages as a base: LRQ, LSQ, BLQ, or LRT. Stages which can be mounted vertically are: LRQ, LSQ, BLQ, LRM, or RSW. Fasteners are included.
This bracket is intended to mount an LSA Series stage vertically as part of a miniature multi-axis system. The AB106 can also be used to add a horizontal platform to the moving carriage of a vertically oriented stage. The central M4 hole can be used for an optical post. Fasteners are included.
The AB117 is designed to hold probes used in life science and biological research applications. It is used as part of Zaber’s M-LSM micromanipulator series, and holds probes 2-13 mm in diameter. It has an adjustable orientation when mounted to an AP116, and is fixed when mounted to an LSM linear stage. Fasteners are included.
This angle bracket mounts Zaber's RSM or GSM devices together as part of a miniature gimbal system. Fasteners are included.
This bracket is used to conserve space in a system by allowing the X-MCA Series controllers to be mounted upright. This orientation enables multiple X-MCA controllers to stack next to each other. Fasteners are included.
This pair of adaptor brackets is designed to mount X-MCA Series controllers to a 35 mm DIN rail. It provides a secure connection by allowing the controller to snap to the rail. Fasteners are included.
This angle bracket is used to create a multi-axis system with two LRQ motorized linear stages. It specifically allows for the base of a vertical LRQ to mount flush with the mounting surface of a horizontal LRQ, keeping the overall system compact. To mount this bracket to an LRQ fitted with a dust cover, the AP163 is required. The AB164 is also compatible with a number of other Zaber linear stages. Fasteners are included.
This vacuum-compatible angle bracket is used to create a multi-axis system with two LRQ-V motorized linear stages. It specifically allows for the base of a vertical LRQ-V to mount flush with the mounting surface of a horizontal LRQ-V, keeping the overall system compact. The AB164-V is also compatible with a number of other Zaber vacuum-compatible linear stages. Fasteners are included.
This bracket is used in combination with the X-LDA025 to mount microscope objectives. It allows for precise alignment of the objective position, and can be used manually or with the X-MOR-E motorized objective turret. The AB170M requires a magnetic adaptor to mount objective lenses, which can be found as AM171M, AM172M, or AM173M. Our microscope configurator is available to help you choose the adaptors that best match your optical system. Fasteners are included.
This set of 4 brackets enables an X-FCR06C filter cube turret or MKR microscope core to be transformed into an inverted microscope. The device mounts upside down to the set of brackets, and can be attached to the AP178 microscope baseplate or to a standard M6 breadboard. A taller variation is available as AB249. Fasteners are included.
This pair of clamps can be used to build a multi-axis system with Zaber’s LC40 guides. The clamps secure the extrusion of one LC40 product to the moving carriage of another. They can also be used to mount an LC40 or other 40 mm extrusions to an M6 breadboard. Fasteners are included.
This bracket is used to allow easier access to the space below an LSQ Gantry by mounting the stage on its side. Dowel pins are installed for stage alignment in any desired orientation. Fasteners are included.
This bracket is used to allow easier access to the space below an LRT Gantry by mounting the stage on its side. Dowel pins are installed for stage alignment in any desired orientation. Fasteners are included.
This angle bracket can be used to create a multi-axis system with a variety of Zaber linear stages. It is particularly useful for mounting LRT Family products together because it allows the vertical stage to hang below the horizontal carriage surface. Fasteners are included.
This set of 4 brackets enables an X-FCR06C filter cube turret or MKR microscope core to be transformed into an inverted microscope. The device mounts upside down to the set of brackets, and can be attached to the AP178 microscope baseplate or to a standard M6 breadboard. A shorter variation is available as AB176. Fasteners are included.
This angle bracket is used to create a multi-axis system with Zaber's ultra precision LDM Series. It offers a greater stiffness and support which ensures that the LDM retains its high-level performance. It is also compatible with a number of other Zaber linear stages. Fasteners are included.
This spring-loaded adaptor bracket is used in compact DIN rail applications by allowing the X-SCA4 controller to mount to a 35 mm DIN rail in a sideways orientation. It can also be used to stack multiple process controllers next to each other. Note that LED indicator and connector labels will not be facing the end user in this orientation. If such is required, please refer to the AB259. Fasteners are included.
This spring-loaded adaptor bracket offers a mounting orientation which makes wiring the driver and I/O screw terminals of the X-SCA4 more convenient to do. It allows the controller to be mounted to a 35 mm DIN rail in an orientation that displays LED indicator and connector labels to the end user. If a more compact DIN rail mounting is desired, please refer to the AB258. Fasteners included.
This spring loaded metal bracket allows MCC controllers to be mounted to 35 mm DIN rails in a vertical orientation, while keeping the motor cable connections and I/O ports front facing for ease of access. The bracket is reversible, allowing the network connections such as Ethernet for X-MCC or EtherCAT for E-MCC to be routed downward or upward based on your preference.
This angle bracket is used to create a multi-axis system with two LRU motorized linear stages, specifically for vertical mounting of a 180 mm wide configuration. Its modular, adjustable design allows a variety of mounting orientations and offsets. Contact Zaber for customized solutions. Fasteners are included.
Note: In vertical orientations it is recommended to use a LRU equipped with a power-off brake.This angle bracket is used to create a multi-axis system with two LRU motorized linear stages, specifically for vertical mounting of a 250 mm wide configuration. Its modular, adjustable design allows a variety of mounting orientations and offsets. Contact Zaber for customized solutions. Fasteners are included.
Note: In vertical orientations it is recommended to use a LRU equipped with a power-off brake.This angle bracket is used for creating multiaxis systems with clear apertures for Zaber’s high precision RDQ and RST rotary stages. It offers greater stiffness and support to ensure the system retains its high performance level. It’s also compatible with a number of other Zaber rotary stages. Fasteners are included.
This mounting bracket is designed for Zaber's X-LSQ Series and TSB Series translation stages. The bracket has 15 tapped M6 holes, spaced 25 mm and 12.5 mm apart.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This shaft is used in LC40 Gantry stages to drive two parallel LC40 stages with a single motor.
This 160 x 110 mm insert fits into the top plate of the compatible XY microscope stages. It is held in place by a spring clip on the stage allowing quick changes between different inserts. The AM108 adjusts to hold different sized slides and dishes up to 70 mm in diameter.
This insert is compatible with the following stages:
This 160 x 110 mm insert fits into the top plate of the compatible XY microscope stages. It is held in place by a spring clip on the stage allowing quick changes between different inserts. The AM109 holds an SBS standard (127.5 x 85 mm) multiwell plate.
This insert is compatible with the following stages:
This 160 x 110 mm insert fits into the top plate of the compatible XY microscope stages. It is held in place by a spring clip on the stage as well as 4 optional M2 screws (included). The AM126 features a grid of M6 tapped holes on 25 mm spacing to allow the easy mounting of other Zaber devices or other accessories.
This insert is compatible with the following stages:
This 82 x 82 mm insert fits into the top plate of ASR 50 x 50 mm travel XY stages. It is held in place by a spring clip on the stage allowing quick changes between different inserts. The AM141 adjusts to hold different sized petri dishes from 30-60 mm in diameter.
This 82 x 82 mm insert fits into the top plate of ASR 50 x 50 mm travel XY stages. It is held in place by a spring clip on the stage allowing quick changes between different inserts. The AM142 uses two spring loaded clips to hold standard 3" x 1" (75 x 25 mm) microscope slides.
This 82 x 82 mm insert fits into the top plate of ASR 50 x 50 mm travel XY stages. It is held in place by a spring clip on the stage as well as 4 optional M2 screws (included). The AM143 features a grid of M6 tapped holes on 25 mm spacing to allow for easy mounting of other Zaber devices or accessories.
This 219 x 219 mm insert fits into the top plate of ASR 205 x 205 mm travel XY stages. It is held in place by 3 flat head screws and can be leveled using adjustable set screws. Optionally, 16 M3 socket head cap screws can be used to attach the insert for high load applications. The AM154 features a grid of M6 tapped holes on 50 mm spacing as well as holes for centrally mounting Zaber rotary and vertical stages.
This 300 x 300 mm insert fits into the top plate of the ASR and ASR-E 305 x 305 mm travel XY stages. It is held in place by 3 flat head screws and can be leveled using adjustable set screws. Optionally, 24 M3 socket head cap screws can be used to attach the insert for high load applications. The AM155 features a grid of M6 tapped holes on 50 mm spacing as well as holes for centrally mounting Zaber rotary and vertical stages.
These adaptors are designed to be used with Zaber microscopes to mount Zeiss (M27 x 0.75) objectives.
These adaptors are designed to be used with Zaber microscopes to mount Nikon (M25 x 0.75) objectives.
These adaptors are designed to be used with Zaber microscopes to mount RMS threaded (0.8"-36) objectives.
This slider is compatible with MLTxxxAC transmitted illuminators. It has 2 positions for 40 mm OD phase stops (AM221 and AM222) and 1 position for a 43 mm OD filter (a 6% transmission neutral density filter is included). Adjustment screws are provided at the phase stop positions to allow precise alignment of the phase rings.
This 40 mm OD phase stop is compatible with MLTxxxAC transmitted illuminators when used in conjunction with the AM220 slider. When the slider and stop are inserted into the MLT condenser slot and paired with a Zeiss Ph1 phase contrast objective, phase contrast observation is made possible on MVR microscopes.
This 40 mm OD phase stop is compatible with MLTxxxAC transmitted illuminators when used in conjunction with the AM220 slider. When the slider and stop are inserted into the MLT condenser slot and paired with a Zeiss Ph2 phase contrast objective, phase contrast observation is made possible on MVR microscopes.
This 283 x 110 mm insert fits into the top plate of the ADR 250 x 100 mm travel XY stages. It is held in place by a spring clip or optional magnets on the stage allowing quick changes between different inserts. The flat, cast aluminium surface can be drilled, tapped or otherwise modified as needed.
This 283 x 110 mm insert fits into the top plate of the ADR 250 x 100 mm travel XY stages. It is held in place by a spring clip or optional magnets on the stage allowing quick changes between different inserts. The insert can also be secured to the stage with 4 M2 screws (included). The AM229 features a grid of M6 tapped holes on 25 mm spacing to allow the easy mounting of other Zaber devices or other accessories.
This 283 x 110 mm insert fits into the top plate of the ADR 250 x 100 mm travel XY stages. It is held in place by a spring clip or optional magnets on the stage allowing quick changes between different inserts. The AM230 holds two SLAS standard (127.76 x 85.48 mm) microplates. Built in spring clips allow easy microplate switching.
This 283 x 110 mm insert fits into the top plate of the ADR 250 x 100 mm travel XY stages. It is held in place by a spring clip or optional magnets on the stage allowing quick changes between different inserts. The AM231 holds eight standard 3" x 1" (75 x 25 mm) microscope slides. The slides are held in place by 4 magnetic clips allowing quick installation and removal.
This 160 x 110 mm insert fits into the top plate of compatible XY microscope stages. It is held in place by a spring clip allowing quick changes between different inserts. The AM242 holds four standard 3" x 1" (75 x 25 mm) microscope slides. The slides are held in place by 2 magnetic clips allowing quick installation and removal.
This insert is compatible with the following stages:
- 100 x 120 mm travel ASR XY stages.
- 130 x 100 mm travel ADR XY stages.
- 250 x 100 mm travel ADR XY stages (with AM227 adapter).
The AM262 filter wheel mounting adapter enables an X-FWR filter wheel to be mounted to the MTC90 or MTC00 tube lens and camera mount assembly of a Zaber Nucleus™ microscope.
This slider is compatible with MLTxxxAN transmitted illuminators. When inserted into the condenser slot and paired with a Nikon PhL or Ph1 phase contrast objective, phase contrast observation is made possible on MVR microscopes. The centration of the phase stops is user adjustable on this slider.
This 160 x 110 mm insert fits into the top plate of the compatible XY microscope stages. It holds an SBS-standard multiwell plate (127.5 × 85 mm) and features an integrated clamping arm that can be engaged or released by an external robot for automated plate handling. Enlarged side cutouts provide maximum clearance for various robotic grippers.
This insert is compatible with the following stages:
This bracket mounts the X-NA actuator to Zaber’s TSB series translation stage.
This bracket mounts the NA11 actuator to Zaber’s TSB series translation stage.
This adaptor plate mounts the LSM stage to a standard M6 or 1/4-20 breadboard. It also enables an LSM stage to attach to an LSQ stage, creating a longer XY system. The AP101 adaptor plate can also be used to create an XYZ system in combination with the AB104, and is compatible with a number of other Zaber stages. Fasteners are included.
This vacuum-compatible adaptor plate mounts the LSM-V stage to a standard M6 or 1/4-20 breadboard. The AP101-V adaptor plate can also be used with a number of other Zaber vacuum compatible stages. Fasteners are included.
This vacuum-compatible adaptor plate adds an M6 metric mounting pattern to the carriage of an LSM-V linear stage. This may be used to mount additional products or brackets as part of a larger system. Fasteners are included.
This adaptor plate adds a 1/4-20 imperial mounting pattern to the carriage of an LSM linear stage. Fasteners are included.
This pair of adaptor plates allow the 100 mm x 120 mm variant of the ASR stage to be mounted to a standard M6 or 1/4-20 breadboard. Fasteners are included.
This pair of adaptor plates allow the 100 mm x 120 mm variant of the ASR stage to be mounted to most Leica, Zeiss, and Olympus microscopes. Fasteners are included. If you are unsure as to whether or not the ASR stages will mount to your microscope, please contact a support engineer.
This pair of adaptor plates is designed to mount the 100 mm x 120 mm variant of the ASR stage to most Nikon inverted microscopes. If you are unsure as to whether or not the ASR stages will mount to your microscope, please contact a support engineer.
This pair of adaptor plates is designed to mount the 100 mm x 120 mm variant of the ASR stage to Olympus IX inverted microscopes. If you are unsure as to whether or not the ASR stages will mount to your microscope, please contact a support engineer.
This adaptor plate allows large payloads to mount to the carriage of an LRM linear stage by raising the mounting surface above the motor of the stage.
Note: This plate is not necessary for the X-LRM-DE Series, which already has an adaptor plate on the carriage. Fasteners are included.
This pair of adaptors is used to vertically mount the X-FWR-E filter wheel to a metric optical breadboard by attaching the device to two 12.7 mm (1/2") posts. Fasteners are included.
This pair of adaptor plates allow the 50 mm x 50 mm variant of the ASR stage to be mounted to a standard M6 or 1/4-20 breadboard. Fasteners are included.
The AP144 is best for magnetism-sensitive applications. It is designed to reduce the DMQ magnetic leakage flux by approximately 10x. Multiple shields can be stacked together to further reduce the flux. Note that while reducing the leakage flux, this accessory also causes an approximate 10% decrease in thrust from the stage. One AP144 is included with every DMQ device. Fasteners are included.
This adaptor plate enables an RSM to mount on its side as part of a miniature gimbal system. Fasteners are included.
This pair of adaptor plates allow the 205 mm x 205 mm and 305 mm x 305 mm variants of the ASR stage to be mounted to a standard M6 or 1/4-20 breadboard. Fasteners are included.
This adaptor plate adds an M6 grid to the top of Zaber’s LRQ-C dust cover stage to allow for a variety of mounting options. Fasteners are included.
This adaptor plate is designed for building an XY system with parallel drive by creating clearance between the carriage and motor of the LRQxP parallel drive stage. It can also be used with the inline LRQ stage to mount larger payloads or other Zaber devices. Fasteners are included.
These brackets allow an ASR or ADR XY microscope stage to be mounted to the AP178 microscope baseplate or to a standard M6 breadboard. These brackets locate the sample plane of the XY stage at the nominal focal plane of the MKR025A microscope core. The rear stage support has alignment pins and mounting holes to precisely locate and attach both the MKR025A and an MLT transmitted illuminator. The front stage support has features that allow an X-LCA4 4-channel LED controller to be mounted inside the support. These stage support brackets are used in our MVR inverted microscopes, which can be configured using our online configurator tool.
This pair of adaptor plates allow the 100 mm x 120 mm variant of ASR stages to mount to Zaber’s MVR inverted microscopes. Our microscope configurator is available to help you choose the best system for your use. Fasteners are included.
These brackets allow an ASR or ADR XY microscope stage to be mounted to the AP178 microscope baseplate or to a standard M6 breadboard. These brackets locate the sample plane of the XY stage at the nominal focal plane of the MKR025B microscope core. The rear stage support has alignment pins and mounting holes to precisely locate and attach both the MKR025B and an MLT transmitted illuminator. The front stage support has features that allow an X-LCA4 4-channel LED controller to be mounted inside the support. These stage support brackets are used in our MVR inverted microscopes, which can be configured using our online configurator tool.
This adaptor plate is used to create a large platform vertical stage by attaching multiple VSR stages in parallel. It has mounting holes for the AP110 and AP160 breadboard adaptors to attach their respective ASR models. Fasteners are included.
This adaptor plate adds many additional mounting options to the carriage of an LC40 or LC40C linear stage. It can also be used to mount an LC40 extrusion to a metric M6 breadboard. A number of other Zaber stages are also compatible with the AP191 to further customize your system. Fasteners are included.
This adaptor plate is used in high-load, high-precision, and angular positioning applications to create a 1/4-20 mounting platform for Zaber’s G-RST300 gimbal stage. It offers versatile payload mounting options which are beneficial for optical, scanning and tracking, and telecom implementations. Fasteners are included.
This adaptor plate is used in high-load, high-precision, and angular positioning applications to create an M6 mounting platform for Zaber’s G-RST300 gimbal stage. It offers versatile payload mounting options which are beneficial for optical, scanning and tracking, and telecom implementations. Fasteners are included.
This adaptor plate is used in high-load, high-precision, and angular positioning applications to create a 1/4-20 mounting platform for Zaber’s G-RST500 gimbal stage. It offers versatile payload mounting options which are beneficial for optical, scanning and tracking, and telecom implementations. Fasteners are included.
This adaptor plate is used in high-load, high-precision, and angular positioning applications to create an M6 mounting platform for Zaber’s G-RST500 gimbal stage. It offers versatile payload mounting options which are beneficial for optical, scanning and tracking, and telecom implementations. Fasteners are included.
This adaptor plate is used in LC40 Gantry Systems that require a shaft coupling. It creates space between the LC40 stage and NMS23 motor to incorporate an AC186 jaw coupling into the system. Fasteners are included.
This pair of adaptor plates is used in the X-axis of an LSQ Gantry System to secure the CG01T and CG02T cable guide terminations. The top adaptor mounts directly to the AP200 home plate, and the bottom adaptor can mount directly to an LSQ stage or to the AP202 gantry riser. Fasteners are included.
This pair of adaptor plates is used in an LSQ Gantry System to secure the CG01T and CG02T cable guide terminations. The top adaptor mounts directly to the AP200 home plate, and the bottom adaptor can mount directly to an M6 or 1/4-20 breadboard. Fasteners are included.
This pair of adaptor plates is used to create an LSQ Gantry System by connecting a pair of X-axis stages to a Y-axis stage. Fasteners are included.
This pair of adaptor plates is used to create an LRT Gantry System by connecting a pair of X-axis stages to a Y-axis stage. Fasteners are included.
The AP202 riser is used to raise an LSQ Gantry System 100 mm above an M6 breadboard. For most LSQ gantries, four AP202 risers is recommended. For custom height options, please contact a support engineer. Fasteners are included.
The AP202 riser is used to raise an LSQ Gantry System 300 mm above an M6 breadboard. For most LSQ gantries, four AP202 risers is recommended. For custom height options, please contact a support engineer. Fasteners are included.
The AP202 riser is used to raise an LSQ Gantry System 500 mm above an M6 breadboard. For most LSQ gantries, four AP202 risers is recommended. For custom height options, please contact a support engineer. Fasteners are included.
The AP203 riser is used to raise an LRT Gantry System 100 mm above an M6 breadboard. For most LRT gantries, four AP203 risers is recommended. For custom height options, please contact a support engineer. Fasteners are included.
The AP203 riser is used to raise an LRT Gantry System 300 mm above an M6 breadboard. For most LRT gantries, four AP203 risers is recommended. For custom height options, please contact a support engineer. Fasteners are included.
The AP203 riser is used to raise an LRT Gantry System 500 mm above an M6 breadboard. For most LRT gantries, four AP203 risers is recommended. For custom height options, please contact a support engineer. Fasteners are included.
This pair of adaptor plates is used in an LSQ Gantry System to secure the CG01T and CG02T cable guide terminations. The top adaptor mounts directly to the carriage of an LSQ stage, and the bottom adaptor can be mounted to provide guidance for a Y-axis or Z-axis stage using the AP200 crossmember plate or an AB208 side-mount bracket. Fasteners are included.
This adaptor plate is used in an LRT Gantry System to secure the CG01T and CG02T cable guide terminations to an M6 or 1/4-20 breadboard. Fasteners are included.
This pair of adaptor plates is used in an LRT Gantry System to secure the CG01T, CG02T, CG05T, and CG06T cable guide terminations. The top adaptor mounts directly to the carriage of an LRT stage, and the bottom adaptor can be mounted to provide guidance for a Y-axis or Z-axis stage using the bottom of an LRT or an AP201. Fasteners are included.
This bracket mounts to the side of an LRT stage to prevent cable guides from sagging into the area below an LRT Gantry System. It is recommended for use with longer gantries or heavily loaded cable guides. Fasteners are included.
This pair of adaptor plates is used in an LSQ-C Gantry System to secure the CG01T and CG02T cable guide terminations. The top adaptor mounts directly to the carriage of an LSQ-C dust-cover stage, and the bottom adaptor can be mounted to provide guidance to a Y-axis or Z-axis stage using the AP200 crossmember plate or an AB208 side-mount bracket. Fasteners are included.
This bracket mounts to the side of an LSQ stage to prevent cable guides from sagging into the area below an LSQ Gantry System. It is recommended for use with longer gantries or heavily loaded cable guides. Fasteners are included.
This pair of adaptor plates allow the ADR stage to be mounted to a standard M6 or 1/4-20 breadboard. Fasteners are included.
This support bracket mounts to the side of an LC40 stage to prevent cable guides from sagging into the area below an LC40 Gantry System. It is recommended for use with longer gantries or heavily loaded cable guides. Fasteners are included.
This support bracket mounts to the side of the AP239 to prevent long cable guides from interfering with itself in an LC40 Gantry System. It is recommended for use with longer gantries or heavily loaded cable guides. Fasteners are included.
This brace mounts to the bottom or sides of an LC40 to add support and stiffness for long spans or when operating under heavy loads. Fasteners are included.
This brace mounts to the bottom or sides of an LC40 to add support and stiffness for long spans or when operating under heavy loads. Fasteners are included.
This brace mounts to the bottom or sides of an LC40 to add support and stiffness for long spans or when operating under heavy loads. Fasteners are included.
This brace mounts to the bottom or sides of an LC40 to add support and stiffness for long spans or when operating under heavy loads. Fasteners are included.
This brace mounts to the bottom or sides of an LC40 to add support and stiffness for long spans or when operating under heavy loads. Fasteners are included.
This brace mounts to the bottom or sides of an LC40 to add support and stiffness for long spans or when operating under heavy loads. Fasteners are included.
These plates mount to two inline LC40 carriages and the terminations of CG01, CG02, CG03, CG04, and CG05 cable guides. The M6 threaded holes are compatible with the RSW and RSB60 rotary stages, VSR vertical stages, or angle brackets like the AB151 and AB210.
This plate is used in the quad carriage configuration of the LC40 Gantry Systems to create a large M6 mounting platform for use with various Zaber stages and accessories. It mounts the CG01T, CG02T, CG04T, CG05T, and CG06T cable guide terminations. Fasteners are included.
These plates mount to two parallel LC40 carriages from two LC40G/LC40B stages as well as the terminations of CG01, CG02, CG03, CG04, and CG05 cable guides. M6 threaded holes are provided to be compatible with RSW and RSB60 rotary stages, LRM linear stages, VSR vertical stages, or angle brackets like the AB151 and AB210.
This adaptor plate allows an ADR microscope stage to be mounted to Zaber’s MVR inverted microscope. Our microscope configurator is available to help you choose the best system for your use. Fasteners are included.
This shipping plate is included with MVR microscopes that require additional bracing between the stage supports during shipping. The AP253 attaches to the AP175 mounting adapters which are used to mount X-ASR100B120B stages to the MVR. A shipping plate is not required for MVRs that ship with X-ADR XY stages.
This adaptor plate enables Zaber’s RSB120 and RST120 rotary stages to be mounted to a variety of Zaber’s linear stages. Note that in some cases the rotary stage may mount off-centered from the carriage. It can also be used to mount the LDA on these same linear stages. Fasteners are included.
This baseplate can be used with the MTR300A and any of the following XY stages: X-ASR100B120B-SE03D12, X-ADR130B100B-SAE53D12, X-ADR250B100B-SAE53D12. It has tapped mounting holes for these XY stages (appropriate mounting adaptors are required) and the MTR300A upright microscope tower. The baseplate also has M6 clearance holes that allow it to be mounted to a larger optical table for additional rigidity and vibration isolation. MSR upright microscopes can be configured using our online configurator tool.
This mounting plate allows an LC40C linear stage to be attached to a variety of Zaber devices and gantry systems. The plate can be mounted in two orientations to achieve different amounts of overhang from the mounting surface. Fasteners are included.
This shipping accessory is designed for Zaber’s ADR product series. The accessory has M4 clearance holes for mounting to the ADR base and M6 clearance holes for mounting to the ADR top. Fasteners are included.
150 mm Rotary Stage Top, Metric Hole Pattern - This stage top is designed for Zabers RDQ family motorized rotary stages. The stage top provides a convenient 25mm grid pattern of M6 and M3 holes. Add AP271 for adjustable hard stops required in limited travel applications to improve payload crash security. Fasteners are included.
This pair of adaptor plates allows the ASR XY stage to be mounted to a standard M6 or 1/4-20 breadboard or to the AP260 Microscope Baseplate. The adaptor plates are 30 mm tall, providing enough clearance underneath the ASR for the MLL1A transmitted illuminator. Fasteners are included.
This pair of adaptor plates allows the ADR XY stage to be mounted to a standard M6 or 1/4-20 breadboard or to the AP260 Microscope Baseplate. The adaptor plates are 26 mm tall, providing enough clearance underneath the ADR for the MLL1A transmitted illuminator. Fasteners are included.
These anodized solid aluminum breadboards are perfect for mounting multi-axis systems and are compatible with most Zaber products. They feature M6 threaded holes on a 25 mm x 25 mm grid and five counterbored holes for M6 fasteners to mount the breadboard to other surfaces.
These anodized solid aluminum breadboards are perfect for mounting multi-axis systems and are compatible with most Zaber products. They feature M6 threaded holes on a 25 mm x 25 mm grid and five counterbored holes for M6 fasteners to mount the breadboard to other surfaces.
These cable guide links can be used to assemble a cable carrier of any desired length to provide cable management for multi-axis motion products, such as gantries. We recommend this series when travel is 1.5 m or shorter. These links provide a 30 mm wide opening, suitable for 1 to 2 motor cables. For systems requiring more cables or large diameter cables, see the CG02. Cable guides assembled with these links should be mounted using CG01T terminations (sold separately).
These cable guide links can be used to assemble a cable carrier of any desired length to provide cable management for multi-axis motion products, such as gantries. We recommend this series when travel is 1.5 m or shorter. These links provide a 50 mm wide opening, suitable for 1 to 3 motor cables. Cable guides assembled with these links should be mounted using CG02T terminations (sold separately).
These cable guide links can be used to assemble a cable carrier of any desired length to provide cable management for multi-axis motion products, such as gantries. We recommend this series when the travel is longer than 1.5 m. These links provide a 50 mm wide opening, suitable for 1 to 3 motor cables and one additional data cable. For systems requiring more cables or large diameter cables, see the CG05. These cable guides are mounted using CG04T terminations (sold separately).
These cable guide links can be used to assemble a cable carrier of any desired length to provide cable management for multi-axis motion products, such as gantries. We recommend this series when the travel is longer than 1.5 m. These links provide a 63 mm wide opening, suitable for 1 to 4 motor cables and one additional data cable. These cable guides are mounted using CG05T terminations (sold separately).
These cable guide links can be used to assemble a cable carrier of any desired length to provide cable management for multi-axis motion products, such as gantries. We recommend this series when the travel is longer than 1.5 m and/or if a cable requires a 75 mm bend radius. These links provide a 63 mm wide opening, suitable for 1 to 4 motor cables and one additional data cable. These cable guides are mounted using CG06T terminations (sold separately).
This E-Stop provides a push-button stop to remove driver power from all connected axes simultaneously, without removing logic power to the controller. The normally closed switch is pre-wired to plug directly into Zaber’s MCC and X-SCA4 controllers. It comes attached to a mounting plate for easy integration in a system. For more information about electrical specifications, please refer to the Emergency Stop
section of either controller manual.
The MJB25A junction block is designed to introduce an additional optical path to an MVR microscope between the X-FCR filter cube turret and the objective lens. This path can be used for applications such as laser autofocus or adding additional LED excitation channels with a second MLR3 illuminator.
The MJB25A houses a 36 x 25 x 1 mm dichroic mirror tilted 45° to the optical path of the microscope as well as 25 mm diameter filters at the entry and exit ports of the block. SM1 threaded ports make it easy to securely integrate additional optical paths.
Note that in order to accommodate the MJB25A, the X-LDA focus stage must be raised by 35 mm relative to its standard location. The additional distance between the objective lens and filter cube may result in vignetting (reduced intensity near the periphery of the image) when high N.A. (0.80 or greater) objective lenses are used.
The MJB25B junction block is designed to introduce an additional optical path to an MVR microscope between the X-FCR filter cube turret and the objective lens. This path can be used for applications such as laser autofocus or adding additional LED excitation channels with a second MLR3 illuminator.
The MJB25B houses a 36 x 25 x 1 mm dichroic mirror tilted 45° to the optical path of the microscope as well as 25 mm diameter filters at the entry and exit ports of the block. SM1 threaded side ports make it easy to securely integrate additional optical paths. An unthreaded top port accommodates a 25 mm or 1" filter that is secured with a nylon-tipped set screw.
Note that in order to accommodate the MJB25B, the X-LDA focus stage must be raised by 35 mm relative to its standard location. The additional distance between the objective lens and filter cube may result in vignetting (reduced intensity near the periphery of the image) when high N.A. (0.80 or greater) objective lenses are used.
The MJB25C-F1 junction block provides the HL04 laser autofocus sensor with an input into optical path to a Zaber Nucleus™ microscope or MKR core between the X-FCR filter cube turret and the objective lens. The MJB25C-F1 comes with a preinstalled 36 x 25 x 1 mm 785 nm notch dichroic mirror tilted 45° to the optical path of the microscope.
Note that in order to accommodate the MJB25C-F1, the X-LDA focus stage must be raised by 35 mm relative to its standard location. The additional distance between the objective lens and filter cube may result in vignetting (reduced intensity near the periphery of the image) when high N.A. (0.80 or greater) objective lenses are used.
The MLG3A is a mechanical and optical adaptor that provides an interface between a 3 mm core liquid light guide and the epi-illumination port of the FCR06C, allowing the use of 3rd party light sources for epi-illumination. The MLG3A supports a field number of 20 mm.
The MLL1A is a transmitted light illuminator that connects to the X-LCA4 LED controller. It is designed to fit underneath an ASR or ADR XY stage mounted on AP286 or AP287 adaptor plates. It uses a 3000K warm white LED to provide even brightfield illumination, supporting a maximum field size of 25 mm. The MLR1 can be mounted to standard metric optical breadboard or to our AP260 upright microscope baseplate. It can also be added to MSR upright microscopes using our online configurator.
The MTR300A upright microscope tower provides a rigid structural frame for mounting an MKR microscope core in an upright configuration (with the objective lens above the sample). The MTR300A provides up to 80 mm of manual vertical adjustment to accommodate large samples. The y-axis offset between the tower and the optical axis can accommodate a 100 mm x 120 mm ASR, 130 mm x 100 mm ADR, or 250 mm x 100 mm ADR XY stage.
The MTR300A should be mounted to a rigid optical table or baseplate (such as the AP260) in order to maximize rigidity at the optical axis and minimize the effect of vibrations on image stability.
The MTR300D upright microscope tower provides a rigid structural frame for mounting an MKR microscope core in an upright configuration (with the objective lens above the sample). The MTR300D provides up to 100 mm of manual vertical adjustment to accommodate large samples. The y-axis offset between the tower and the optical axis can accommodate a 205 mm x 205 mm ASR or 305 mm x 305 mm ASR XY stage.
The MTR300D should be mounted to a rigid optical table in order to maximize rigidity at the optical axis and minimize the effect of vibrations on image stability. A honeycomb core optical breadboard or optical table with a thickness of at least 50 mm is recommended.
This is a regulated, isolated, 100-240 V AC input power supply. The 24 V DC, 3.0 A output on a 2-pin 5 mm pitch terminal block is compatible with X-Series and E-Series products. It is suitable for powering several products with smaller motors on a multi-axis controller or X-Series daisy-chain.
This is a regulated, isolated, 100-240 V AC input power supply. The 48 V DC, 3.75 A output on a 2-pin 5 mm pitch terminal block is compatible with X-Series and E-Series products. It is suitable for powering a single high current product or several lower current products on a multi-axis controller or X-Series daisy-chain.
This is a regulated, isolated, 100-240 V AC input power supply. The 48 V DC, 6.5 A output on a 2-pin 5 mm pitch terminal block is compatible with X-Series and E-Series products. It is suitable for powering a single high current product, or several lower current products on a multi-axis controller or X-Series daisy-chain.
A 6 ml syringe containing Shell Gadus S2 V220 2 grease for relubricating many of Zaber's recirculating bearings (including LSQ, LRQ, LDQ, LRT, LC, BLQ, LRM, LSM). Includes a straight tip and a 45° tip for hard-to-reach places.
This is a regulated 110-120 V AC input power supply. Output is 15 V DC at up to 400 mA on a 2.1 mm center positive plug. It is conveniently sized so that multiple power supplies will fit adjacent to each other on a standard power bar. This power supply is included with the KT01 kit. It is capable of running multiple 15 V devices as long as the combined current draw is less than 400 mA. Power is transmitted to additional devices through the data cables.
This is a regulated 100-240 V AC input power supply with 15 V DC, 1.2 A output on a 2.1 mm center positive power plug. Adaptors are included for use in most countries: Type A (American/Japanese 2 pin), Type C (Europlug), Type G (British), Type I (Australian/Chinese). This power supply is included with the KT03 kit. It is capable of running multiple 15 V devices as long as the combined current draw is less than 1200 mA. Power is transmitted to additional devices through the data cables.
This is a regulated 100-240 V AC input power supply with 15 V DC, 2.67 A output on a 2.1 mm (centre positive) power plug. This power supply is included with the KT04 kit. It is capable of running up to four 15 V devices as long as the combined current draw is less than 2600 mA. Power is transmitted to additional devices through the data cables.
This is a regulated 100-240 V AC input power supply with 24 V DC, 2.5 A output on a Molex Mini-Fit Jr. 3-pin power plug. This power supply is included with the KT05 kit. Comes with a 30 cm (1') long cable with eyelet for optional grounding.
This is a regulated 100-240 V AC input power supply with 48 V DC, 1.25 A output on a Molex Mini-Fit Jr. 3-pin power plug. This power supply is included with the KT07 kit. Comes with a 30 cm (1') long cable with eyelet for optional grounding.
This adaptor can be used to replace the T-DSUB9 for connecting T-Series devices to your serial port. The only difference is the addition of a power connector. Connecting the power supply to the adaptor rather than the device reduces cable clutter and is useful for vacuum applications where fewer cable connections to the device are desired.
This adaptor is only compatible with devices requiring a 15 V power supply.
* These are our direct prices in USD to customers in North America. If you are in Canada, click the Canadian flag icon at the top right of the page to see CAD prices. If you are in a country outside North America where we have an exclusive distributor, please check with the distributor for pricing. Distributor prices might be slightly higher to factor in shipping and import fees. Click here for a list of Zaber's Distributors.