Claims
- 1. A zoom lens system comprising, from an object side of the zoom lens system
- a first lens unit having a positive optical power; and
- a second lens unit having a negative optical power, said second lens unit being provided at an image side of said first lens unit with a variable air space formed between said first and second lens units,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing said variable air space, and
- wherein the zoom lens system fulfills the following conditions:
- tan .omega.W.gtoreq.0.7; and ##EQU16## where .omega.W represents a half angle of view in the shortest focal length condition;
- fT represents a focal length of the entire zoom lens system in the longest focal length condition; and
- TLW represents a total length of the entire zoom lens system in the shortest focal length condition.
- 2. A zoom lens system as claimed in claim 1, wherein an aspherical surface is formed either in said first or second lens units.
- 3. A zoom lens system as claimed in claim 1, wherein said first lens unit is constituted, from the object side, a first negative lens sub-unit, a diaphragm, a second negative lens sub-unit and a third positive lens sub-unit.
- 4. A zoom lens system as claimed in claim 1, wherein a most object side surface of said first lens unit is a concave shape.
- 5. A zoom lens system comprising, from an object side of the zoom lens system:
- a first lens unit having a positive optical power; and
- a second lens unit having a negative optical power, said second lens unit being provided at an image side of said first lens unit with a variable air space formed between said first and second lens units,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing said variable air space, and
- wherein the zoom lens system fulfills the following conditions:
- tan .omega.W.gtoreq.0.78; and ##EQU17## where, .omega.W represents a half angle of view in the shortest focal length condition;
- fT represents a focal length of the entire zoom lens system in the longest focal length condition; and
- TLW represents a total length of the entire zoom lens system in the shortest focal length condition.
- 6. A zoom lens system as claimed in claim 5, wherein said first lens unit includes a first negative lens sub-unit and a second negative lens sub-unit provided at the image side of said first negative lens sub-unit, wherein said second negative lens sub-unit fulfills the following condition, ##EQU18## where, CR1 represents a radius of curvature of the most object side surface of said second negative lens sub-unit; and
- CR2 represents a radius of curvature of the most image side surface of said second negative lens sub-unit.
- 7. A zoom lens system as claimed in claim 5, wherein an aspherical surface is formed either in said first or second lens units.
- 8. A zoom lens system as claimed in claim 5, wherein said first lens unit is constituted, from the object side, a first negative lens sub-unit, a diaphragm, a second negative lens sub-unit and a third positive lens sub-unit.
- 9. A zoom lens system as claimed in claim 5, wherein a most object side surface of said first lens unit is a concave shape.
- 10. A zoom lens system comprising, from an object side of the zoom lens system:
- a first lens unit having a positive optical power, said first lens unit comprising, from the object side, a first negative lens sub-unit, a diaphragm, a second negative lens sub-unit and a third positive lens sub-unit; and
- a second lens unit having a negative optical power, said second lens unit being provided at an image side of said first lens unit with a variable air space formed between said first and second lens units,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing said variable air space.
- 11. A zoom lens system as claimed in claim 10, wherein said second negative lens sub-unit is provided at an image side of said first negative lens sub-unit, and wherein said second negative lens sub-unit fulfills the following condition:
- where, ##EQU19## CR1 represents a radius of curvature of the most object side surface of said second negative lens sub-unit; and
- CR2 represents a radius of curvature of the most image side surface of said second negative lens sub-unit.
- 12. A zoom lens system comprising, from an object side of the zoom lens system:
- a first lens unit having a positive optical power, said first lens unit comprises, from the object side, a first negative lens sub-unit and a second positive lens sub-unit; and
- a second lens unit having a negative optical power, said second lens unit being provided at an image side of said first lens unit with a variable air space formed between said first and second lens units,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing said variable air space, and
- wherein the zoom lens system fulfills the following conditions: ##EQU20## where T12 represents a thickness of said second positive lens sub-unit of said first lens unit in the optical axis direction;
- TL represents a distance of the air space between said first negative and second positive lens sub-units in the optical axis direction;
- fW represents a focal length of the entire zoom lens system in the shortest focal length condition; and
- Y' represents a half diagonal distance of an image.
- 13. A zoom lens system as claimed in claim 12, wherein a most object side surface of said first lens unit is a concave shape.
- 14. A zoom lens system comprising, from an object side of the zoom lens system:
- a first lens unit having a positive optical power; and
- a second lens unit having a negative optical power, said second lens unit being provided at an image side of said first lens unit with a variable air space formed between said first and second lens units, and said second lens unit comprising, from the object side, a first positive lens element and a second negative lens element,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing said variable air space, and wherein the zoom lens system fulfills the following conditions: ##EQU21## where Np represents a refractive index of said first positive lens element for d-line;
- .nu.p represents an Abbe number of said first positive lens element;
- Nn represents a refractive index of said second negative lens element for d-line; and
- .nu.n represents an Abbe number of said second negative lens element.
- 15. A zoom lens system as claimed in claim 14, wherein said first lens unit is constituted, from the object side, a first negative lens sub-unit and a second positive lens sub-unit, wherein the zoom lens system fulfills the following conditions: ##EQU22## where, T12 represents a thickness of said second positive lens sub-unit of said first lens unit in the optical axis direction;
- TL represents a distance of the air space between said first negative and second positive lens sub-units in the optical axis direction;
- fW represents a focal length of the entire zoom lens system in the shortest focal length condition; and
- Y' represents a half diagonal distance of an image.
- 16. A zoom lens system as claimed in claim 14, wherein said first lens unit includes a first negative lens sub-unit and a second negative lens sub-unit provided at the image side of said first negative lens sub-unit, wherein said second negative lens sub-unit fulfills the following condition: ##EQU23## where, CR1 represents a radius of curvature of the most object side surface of said second negative lens sub-unit; and
- CR2 represents a radius of curvature of the most image side surface of said second negative lens sub-unit.
- 17. A zoom lens system comprising, from an object side of the zoom lens system:
- a first lens unit having a positive optical power; and
- a second lens unit having a negative optical power,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing a variable air space formed between said first and second lens units, and
- wherein the zoom lens system fulfills the following conditions:
- tan .omega.W.gtoreq.0.7 ##EQU24## where .omega.W represents a half angle of view in the shortest focal length condition;
- fT represents a focal length of the entire zoom lens system in the longest focal length condition; and
- TLW represents a total length of the entire zoom lens system in the shortest focal length condition.
- 18. A zoom lens system comprising, from an object side of the zoom lens system:
- a first lens unit having a positive optical power; and
- a second lens unit having a negative optical power,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing a variable air space formed between said first and second lens units, and
- wherein the zoom lens system fulfills the following conditions:
- tan .omega.W.gtoreq.0.78 ##EQU25## where .omega.W represents a half angle of view in the shortest focal length condition;
- fT represents a focal length of the entire zoom lens system in the longest focal length condition; and
- TLW represents a total length of the entire zoom lens system in the shortest focal length condition.
- 19. A zoom lens system comprising, from an object side of the zoom lens system:
- a first lens unit having a positive optical power; and
- a second lens unit having a negative optical power, said second lens unit being provided at an image side of said first lens unit with a variable air space formed between said first and second lens units,
- wherein zooming from the shortest focal length condition to the longest focal length condition is performed by decreasing said variable air space,
- wherein the zoom lens system fulfills the following conditions:
- tan .omega.W.gtoreq.0.7 ##EQU26## where .omega.W represents a half angle of view in the shortest focal length condition;
- fT represents a focal length of the entire zoom lens system in the longest focal length condition; and
- TLW represents a total length of the entire zoom lens system in the shortest focal length condition, and
- wherein said first lens unit comprises a first negative lens sub-unit and a second negative lens sub-unit provided at an image side of said first negative lens sub-unit, wherein said second negative lens sub-unit fulfills the following condition: ##EQU27## where CR1 represents a radius of curvature of the most object side surface of said second negative lens sub-unit; and
- CR2 represents a radius of curvature of the most image side surface of said second negative lens sub-unit.
Priority Claims (2)
Number |
Date |
Country |
Kind |
9-024936 |
Feb 1997 |
JPX |
|
9-092421 |
Apr 1997 |
JPX |
|
Parent Case Info
This application is based on application Nos. H9-92421 and H9-24936 filed in Japan, the contents of which are hereby incorporated by references.
US Referenced Citations (9)
Foreign Referenced Citations (3)
Number |
Date |
Country |
4-204615 |
Jul 1992 |
JPX |
5-19166 |
Jan 1993 |
JPX |
7-225337 |
Aug 1995 |
JPX |