An electrically tunable zoom system using liquid lenses

Heng Li; Xuemin Cheng; Qun Hao

doi:10.3390/s16010045

An electrically tunable zoom system using liquid lenses

Heng Li, Xuemin Cheng, Qun Hao^*

^*Corresponding author for this work

Tsinghua University

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

A four-group stabilized zoom system using two liquid lenses and two fixed lens groups is proposed. We describe the design principle, realization, and the testing of a 5.06:1 zoom system. The realized effective focal length (EFL) range is 6.93 mm to 35.06 mm, and the field of view (FOV) range is 8° to 40°. The system can zoom fast when liquid lens 1’s (L₁’s) optical power take the value from 0.0087 mm^-1 to 0.0192 mm^-1 and liquid lens 2’s (L2’s) optical power take the value from 0.0185 mm^-1 to -0.01 mm^-1. Response time of the realized zoom system was less than 2.5 ms, and the settling time was less than 15 ms.The analysis of elements’ parameters and the measurement of lens performance not only verify the design principle further, but also show the zooming process by the use of two liquid lenses. The system is useful for motion carriers e.g., robot, ground vehicle, and unmanned aerial vehicles considering that it is fast, reliable, and miniature.

Original language	English
Article number	45
Journal	Sensors
Volume	16
Issue number	1
DOIs	https://doi.org/10.3390/s16010045
Publication status	Published - 31 Dec 2016

Keywords

Gaussian bracket
Liquid lens
Optical imaging
Stabilized zoom system

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10.3390/s16010045

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title = "An electrically tunable zoom system using liquid lenses",

abstract = "A four-group stabilized zoom system using two liquid lenses and two fixed lens groups is proposed. We describe the design principle, realization, and the testing of a 5.06:1 zoom system. The realized effective focal length (EFL) range is 6.93 mm to 35.06 mm, and the field of view (FOV) range is 8° to 40°. The system can zoom fast when liquid lens 1{\textquoteright}s (L1{\textquoteright}s) optical power take the value from 0.0087 mm-1 to 0.0192 mm-1 and liquid lens 2{\textquoteright}s (L2{\textquoteright}s) optical power take the value from 0.0185 mm-1 to -0.01 mm-1. Response time of the realized zoom system was less than 2.5 ms, and the settling time was less than 15 ms.The analysis of elements{\textquoteright} parameters and the measurement of lens performance not only verify the design principle further, but also show the zooming process by the use of two liquid lenses. The system is useful for motion carriers e.g., robot, ground vehicle, and unmanned aerial vehicles considering that it is fast, reliable, and miniature.",

keywords = "Gaussian bracket, Liquid lens, Optical imaging, Stabilized zoom system",

author = "Heng Li and Xuemin Cheng and Qun Hao",

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year = "2016",

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AU - Hao, Qun

PY - 2016/12/31

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N2 - A four-group stabilized zoom system using two liquid lenses and two fixed lens groups is proposed. We describe the design principle, realization, and the testing of a 5.06:1 zoom system. The realized effective focal length (EFL) range is 6.93 mm to 35.06 mm, and the field of view (FOV) range is 8° to 40°. The system can zoom fast when liquid lens 1’s (L1’s) optical power take the value from 0.0087 mm-1 to 0.0192 mm-1 and liquid lens 2’s (L2’s) optical power take the value from 0.0185 mm-1 to -0.01 mm-1. Response time of the realized zoom system was less than 2.5 ms, and the settling time was less than 15 ms.The analysis of elements’ parameters and the measurement of lens performance not only verify the design principle further, but also show the zooming process by the use of two liquid lenses. The system is useful for motion carriers e.g., robot, ground vehicle, and unmanned aerial vehicles considering that it is fast, reliable, and miniature.

AB - A four-group stabilized zoom system using two liquid lenses and two fixed lens groups is proposed. We describe the design principle, realization, and the testing of a 5.06:1 zoom system. The realized effective focal length (EFL) range is 6.93 mm to 35.06 mm, and the field of view (FOV) range is 8° to 40°. The system can zoom fast when liquid lens 1’s (L1’s) optical power take the value from 0.0087 mm-1 to 0.0192 mm-1 and liquid lens 2’s (L2’s) optical power take the value from 0.0185 mm-1 to -0.01 mm-1. Response time of the realized zoom system was less than 2.5 ms, and the settling time was less than 15 ms.The analysis of elements’ parameters and the measurement of lens performance not only verify the design principle further, but also show the zooming process by the use of two liquid lenses. The system is useful for motion carriers e.g., robot, ground vehicle, and unmanned aerial vehicles considering that it is fast, reliable, and miniature.

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KW - Stabilized zoom system

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An electrically tunable zoom system using liquid lenses

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Keywords

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