ST464

Delta

Delta MUS

13

02.3

-71.5

3.6

8’

Mus

estrella

ST465

Theta

Theta MUS

13

08.1

-65.3

5.7

5.3”

Mus

estrella doble

ST466

Theta

51 Vir, 1724

13

09.9

-05 32

4.4

7”

Vir

reto de estrella triple

ST467

Alpha

 

13

10.0

+17 32

5

0.5”

Com

reto de estrella doble

ST468

54

 

13

13.4

-18 50

6.8

5”

Vir

estrella doble

ST469

J

J CEN

13

22.6

-61

4.7

1’

Cen

estrella doble

ST470

Zeta

Mizar

13

23.9

+54 56

2.3

14”

Uma

estrella doble

ST471

Spica

Alpha VIR

13

25.2

-11.2

1

*

Vir

estrella

ST472

O��123

 

13

27.1

+64 43

6.7

69”

Dra

estrella doble de color

ST473

R

 

13

29.7

-23 17

4

Stellar

Hyd

estrella variable

ST474

1755

Struve 1755

13

32.3

+36.8

7

4.4”

Cvn

estrella doble

ST475

S

S VIR

13

33.0

-7.2

6

*

Vir

estrella variable

ST476

25

25 CVN

13

37.5

+36.3

5

1.8”

Cvn

contraste de magnitud de estrella doble

ST477

1763

Struve 1763

13

37.6

-7.9

7.9

2.8”

Vir

estrella doble

ST478

Epsilon

Epsilon CEN

13

39.9

-53.5

2.3

*

Cen

estrella

ST479

1

1772

13

40.7

+19 57

5.7

5”

Boo

contraste de magnitud de estrella doble

ST480

Dunlop141

Dunlop 141

13

41.7

-54.6

5.3

5.3”

Cen

estrella doble

ST481

T

T CEN

13

41.8

-33.6

5.5

*

Cen

estrella variable

ST482

Alkaid

Eta UMA

13

47.5

+49.3

1.9

*

Uma

estrella

ST483

1785

Struve 1785

13

49.1

+27.0

7.6

3.4”

Boo

estrella doble

ST484

2

2 CEN

13

49.4

-34.5

4.2

*

Cen

estrella

ST485

Upsilon

Upsilon BOO

13

49.5

+15.8

4.1

*

Boo

estrella

ST486

3

3 CEN

13

51.8

-33

4.5

8”

Cen

estrella doble

ST487

Zeta

Zeta CEN

13

55.5

-47.3

2.6

Cen

estrella

ST488

Beta

Beta CEN

14

03.8

-60.4

0.6

*

Cen

estrella

ST489

Pi

Pi HYA

14

06.4

-26.7

3.3

*

Hya

estrella

ST490

Kappa

Kappa VIR

14

12.9

-10.3

4.2

*

Vir

estrella

ST491

Kappa

 

14

13.5

+51 47

4.4

13”

Boo

estrella doble de color

ST492

1819

 

14

15.3

+03 08

7.8

0.8”

Vir

reto de estrella doble

ST493

Arcturus

Alpha Boo

14

15.7

+19 11

0

Stellar

Boo

estrella

ST494

Iota

Iota BOO

14

16.2

+51.4

4.9

39”

Boo

estrella doble

ST495

R

R CEN

14

16.6

-59.9

5.3

*

Cen

estrella variable

ST496

1834

Struve 1834

14

20.3

+48.5

8.1

1.3”

Boo

reto de estrella doble

ST497

1833

 

14

22.6

-07 46

7.6

6”

Vir

estrella doble de igual magnitud

ST498

Dunlop159

Dunlop 159

14

22.6

-58.5

5

9”

Cen

estrella doble de color

ST499

1835

 

14

23.4

+08 26

5.1

6”

Boo

estrella doble

ST500

SHJ 179

 

14

25.5

-19 58

6.4

35”

Lib

estrella doble

ST501

5

5 UMI

14

27.5

+75.7

4.3

*

Umi

estrella

ST502

Proxima

Proxima CEN

14

29.9

-62.7

10.7

*

Cen

estrella variable

ST503

Rho

Rho BOO

14

31.8

+30.4

3.6

*

Boo

estrella

ST504

h4690

 

14

37.3

-46 08

5.4

19”

Lup

contraste de magnitud de estrella doble

ST505

Alpha

Rigil Kentaurus 14 39.6

-60 50

0

20”

Cen

estrella doble

ST506

Pi

Pi BOO

14 40.7

+16.4

5

5.6”

Boo

estrella doble

ST507

pi

1864

14 40.7

+16 25

4.9

6”

Boo

estrella doble

ST508

Zeta

 

14 41.1

+13 44

3.8

1”

Boo

reto de estrella doble

ST509

Alpha

Alpha LUP

14 41.9

-47.4

2.3

*

Lup

estrella

ST510

q

q CEN

14 42.0

-37.8

4

*

Cen

estrella

ST511

Alpha

Alpha CIR

14 42.5

-65

3.2

16”

Cir

estrella doble

ST512

c1

c1 CEN

14 43.7

-35.2

4

17’

Cen

estrella

ST513

Epsilon

Izar

14 45.0

+27 04

2.4

3”

Boo

estrella doble de color

ST514

Dunlop

Dunlop 169

14 45.2

-55.6

6.2

68”

Cir

estrella doble

ST515

54

H 97

14 46.0

-25 26

5.2

8”

Hya

estrella doble

ST516

Alpha

Alpha APS

14 47.9

-79

3.8

10°

Aps

estrella

ST517

1883

 

14 48.9

+05 57

7.6

0.7”

Vir

reto de estrella doble

ST518

Mu

 

14 49.3

-14 09

5.4

2”

Lib

reto de estrella doble

ST519

39

 

14 49.7

+48 43

5.7

3”

Boo

estrella doble

ST520

58

58 HYA

14 50.3

-28

4.4

*

Hya

estrella

ST521

Kochab

Beta UMI

14 50.7

+74.2

2.1

*

Umi

estrella

ST522

Zubenelgenubi

Alpha LIB

14 50.9

-16

2.8

4’

Lib

estrella doble

ST523

Xi

37 Boo

14 51.4

+19 06

4.6

7”

Boo

estrella doble de color

ST524

h4715

h4715

14 56.5

-47.9

6

2.4”

Lup

estrella doble

ST525

33

H 28

14 57.3

-21 22

5.9

23”

Lib

estrella doble

ST526

Beta

Beta LUP

14 58.5

-43.1

2.6

*

Lup

estrella

ST527

Pi

Pi OCT

15 01.8

-83.2

5.7

18’

Oct

estrella doble

ST528

44

 

15 03.8

+47 39

4.8

1.5”

Boo

reto de estrella doble

ST529

Sigma

Sigma LIB

15 04.1

-25.3

3.2

*

Lib

estrella variable roja

ST530

Dunlop178

Dunlop 178

15 11.6

-45.3

6.7

32”

Lup

estrella doble

ST531

Kappa

Kappa LUP

15 11.9

-48.7

3.9

27”

Lup

estrella doble

ST532

X

X TRA

15 14.3

-70.1

8.1

*

Tra

estrella variable

ST533

1932

 

15 18.3

+26 50

6.6

1.5”

CrB

reto de estrella doble

ST534

Mu

Mu LUP

15 18.5

-47.9

5.1

1.2”

Lup

reto de estrella doble

ST535

1931

 

15 18.7

+10 26

7

13”

Ser

estrella doble

ST536

S

S CRB

15 21.4

+31.4

5.8

*

Crb

estrella variable

ST537

Phi1

Phi1 LUP

15 21.8

-36.3

3.6

50’

Lup

estrella

ST538

Eta

 

15 23.2

+30 17

5.6

1.0”

CrB

reto de estrella doble

ÍNDICE DEL CATÁLOGO

95.

Page 96
Image 96
Bushnell 78-8850, 78-8846, 78-8831, 78-8840, 78-8890 instruction manual Vir Reto de estrella triple ST467 Alpha 10.0

78-8831, 78-8850, 78-8846, 78-8890, 78-8840 specifications

The Bushnell 78-8840 is a standout model in the realm of digital binoculars, combining high-quality optics with advanced technological features to enhance your viewing experience. Designed for both amateur and professional users, this model encapsulates sophistication, practicality, and durability in a compact form.

One of the main features of the Bushnell 78-8840 is its impressive magnification. With a powerful 8x magnification paired with a 40mm objective lens, this binocular offers excellent light transmission for clear, bright images even in low-light conditions. This makes it a perfect companion for birdwatching, sporting events, or nature observation. The multi-coated optics further optimize the clarity and brightness of the visuals, providing users with sharp and vivid images.

The Bushnell 78-8840 is equipped with an innovative digital image stabilization technology that minimizes the shake and vibrations commonly experienced when using traditional binoculars. This feature is especially beneficial for users who may have unsteady hands or for prolonged viewing sessions, ensuring a stable and enjoyable experience.

Durability is a significant aspect of the 78-8840 model. It features a rugged, waterproof, and fog-proof design, making it suitable for various environmental conditions. This resilience allows for worry-free use in both wet and cold climates, ensuring consistent performance regardless of the surroundings.

Another significant characteristic of this model is its built-in digital camera function. The Bushnell 78-8840 allows users to capture high-resolution images and even record video, making it a versatile tool for wildlife enthusiasts and outdoor adventurers. The user-friendly interface provides straightforward navigation through capturing and storing images, which can be easily shared post-expedition.

The lightweight and ergonomic design of the binoculars ensures that they are comfortable to hold during extended periods of use. This benefit, combined with a long-lasting battery life, makes the Bushnell 78-8840 an accessible option for those who want a high level of functionality without the added weight.

In summary, the Bushnell 78-8840 digital binoculars stand out with their powerful magnification, advanced stabilization technology, and user-oriented design. Whether you are hiking, birdwatching, or enjoying a sports event, this model promises exceptional performance and reliability.