19.Wrap the ball end of the Low Cable (8) around a Pulley (5). Attach the Pulley to the bracket on the Base Crossbar (20) with an M10 x 45mm Bolt (40) and an M10 Nylon Locknut (11). Do not overtighten the Nylon Locknut; the Pulley must be able to turn freely. Be sure the ball is on the indicated side of the bracket.

20.Route the Low Cable (8) around a Pulley (5) as shown. Attach the Pulley and a Cable Trap (21) to the lowest set of holes in the two Pulley Plates

(19)using an M10 x 45mm Bolt (40) and an M10 Nylon Locknut (11). Make sure the Cable Trap holds the Low Cable in the groove of the Pulley.

Do not overtighten the Nylon Locknut; the Pulley must be able to turn freely.

21.Attach the end of the Low Cable (8) to the bracket on the Rear Base (3) using an M10 x 20mm Bolt

(26)and an M10 Nylon Locknut (11).

22.Press a 50mm x 70mm Outer Cap (65) onto each end of the Stabilizer (66).

Attach the Stabilizer (66) to the Bench Frame (61) with two M10 x 60mm Button Head Bolts (92) and two M10 Nylon Locknuts (11). Note: Do not tighten the Nylon Locknuts yet. There is an indentation around each hole on one side of the Stabilizer; this side must be facing the floor.

19

 

 

 

 

 

8

 

 

Ball

 

5

 

 

 

 

 

11

Bracket

 

 

 

20

 

 

40

20

 

 

 

 

 

 

19

 

11

 

40

 

 

 

 

5

 

21

 

 

 

 

8

 

 

21

 

 

 

 

8

 

 

 

Bracket

 

 

 

 

 

3

 

 

 

11

 

 

 

26

22

 

 

11

 

 

 

61

65

 

66

 

 

92

65

 

 

 

11

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Image 11
Image IMBE53910 user manual

IMBE53910 specifications

The Image IMBE53910 is an advanced camera module designed for demanding imaging applications. This compact yet powerful device is primarily aimed at embedded systems, robotics, and areas requiring high fidelity imaging in a small form factor. Built to meet the needs of modern technology while providing exceptional performance, the IMBE53910 incorporates a variety of features and technologies that enhance its functionality.

One of the standout features of the IMBE53910 is its high-resolution imaging capability. With a resolution of up to 5 megapixels, this camera module provides crisp and detailed images that are essential for applications such as machine vision and surveillance. The advanced optics integrated within the design ensure sharp focus and vibrant color reproduction, making it suitable for live video streaming and high-definition photography.

The IMBE53910 utilizes a state-of-the-art CMOS sensor, benefiting from low power consumption characteristics while maintaining high-quality image output. This technology not only reduces the energy requirements of devices using this module but also allows for longer operational times, making it ideal for battery-powered applications.

In terms of connectivity, the IMBE53910 offers flexible interface options. With support for various communication protocols, including USB, SPI, and I2C, it can easily integrate into a diverse range of systems. This versatility is a significant advantage, allowing engineers and developers to incorporate the IMBE53910 into both existing and new projects without extensive modifications.

Moreover, the camera module is equipped with advanced image processing capabilities. Features such as automatic white balance, exposure control, and image enhancement algorithms help optimize captured images in real-time, allowing for superior performance under varying lighting conditions. These intelligent algorithms contribute to the overall ease of use, enabling quick setup and operation.

Robust housing ensures durability and protection for the internal components, making the IMBE53910 suitable for use in challenging environments. This resilience extends the operational lifespan of the camera, an essential factor for applications in industrial and outdoor settings.

Overall, the Image IMBE53910 is a feature-rich camera solution that caters to various imaging needs, providing high resolution and advanced processing technologies in a compact format. Its blend of performance, versatility, and durability makes it a top choice for engineers and developers in the field of imaging technology.