33

81P

Wild

2010

2

22.7485

0.537369

1.597838

41.8137

136.0972

3.2375

7

6

34

82P

Gehrels

2010

1

12.4773

0.121921

3.633291

226.3166

239.5183

1.1264

5

8

35

85P

Boethin

2008

12

16.3724

0.775348

1.147441

53.5862

343.4491

4.2172

6.5

8

36

86P

Wild

2008

5

19.5532

0.366349

2.299076

179.0341

72.5235

15.4397

11

6

37

88P

Howell

2009

10

12.4726

0.561968

1.363503

235.9597

56.758

4.3818

11

6

38

89P

Russell

2009

8

17.1771

0.39932

2.279933

249.3226

42.3911

12.0321

11.5

6

39

94P

Russell

2010

3

29.8581

0.36301

2.239971

92.8775

70.9216

6.1829

9

6

40

97P

Metcalf-Brewington

2011

8

23.0708

0.459505

2.584877

228.7909

185.3042

17.8718

5.5

6

41

99P

Kowal

2007

1

27.2463

0.229783

4.732823

174.2474

28.2479

4.3327

4.5

6

42

100P

Hartley

2009

12

6.1406

0.418754

1.982377

181.7049

37.8476

25.6527

9

8

43

110P

Hartley

2008

2

3.1773

0.312487

2.487409

167.7069

287.7388

11.6791

1

12

44

113P

Spitaler

2008

3

23.3787

0.423255

2.127804

49.8243

14.4619

5.7762

13.5

4

45

116P

Wild

2009

7

18.8676

0.374617

2.174942

173.5919

21.0335

3.6129

2.5

10

46

117P

Helin-Roman-Alu

2005

12

21.0788

0.255423

3.04239

222.9909

58.9391

8.7034

2.5

8

47

118P

Shoemaker-Levy

2010

1

2.3171

0.427227

1.984014

302.1383

151.8073

8.5094

12

4

48

119P

Parker-Hartley

2005

5

22.6848

0.290508

3.039586

181.1136

244.0744

5.1905

3.5

8

49

124P

Mrkos

2008

4

27.3311

0.542493

1.469458

181.4997

1.2852

31.3603

13.5

2.8

50

126P

IRAS

2010

2

22.8394

0.696401

1.7133

356.7469

357.7654

45.8278

6

8

51

127P

Holt-Olmstead

2009

10

21.3259

0.362704

2.195724

6.5239

13.6877

14.3194

11

6

52

128P

Shoemaker-Holt

2007

6

13.3448

0.320257

3.0666

210.3766

214.3784

4.3566

8.5

4

53

131P

Mueller

2012

1

8.3197

0.342517

2.419686

179.6422

214.218

7.354

11

4

54

136P

Mueller

2007

10

22.6772

0.293483

2.961155

224.9585

137.5513

9.4277

11

4

55

137P

Shoemaker-Levy

2009

5

13.5701

0.574498

1.915285

140.813

233.1209

4.8537

11

4

56

139P

Vaisala-Oterma

2008

4

19.4574

0.247039

3.402648

165.5401

242.4436

2.329

9.5

4

57

142P

Ge-Wang

2010

5

31.032

0.49931

2.487014

175.853

176.5414

12.3014

8.5

6

58

143P

Kowal-Mrkos

2009

6

12.1982

0.409802

2.538199

320.7603

245.3684

4.6899

13.5

2

59

144P

Kushida

2009

1

26.8501

0.627795

1.438946

216.0919

245.5568

4.1092

8.5

8

60

145P

Shoemaker-Levy

2009

3

26.6162

0.542157

1.891352

10.1421

26.9025

11.2992

13.5

4

61

147P

Kushida-Muramatsu

2008

9

22.8809

0.27611

2.756234

346.8579

93.7395

2.3671

14

4

62

148P

Anderson-LINEAR

2008

5

22.7006

0.537838

1.702227

6.6478

89.7988

3.6784

16

2

63

149P

Mueller

2010

2

19.2809

0.38863

2.650716

43.7897

145.2662

29.7354

8

8

64

150P

LONEOS

2008

11

25.9864

0.545721

1.76773

245.6687

272.4279

18.5004

13.5

4

45

Page 45
Image 45
iOptron 8507, 8506 instruction manual Loneos

8507, 8506 specifications

The iOptron 8506 is a highly regarded telescope mount that has garnered attention among both amateur and professional astronomers due to its advanced features and robust performance. This precision-engineered mount is designed to offer stability, ease of use, and remarkable tracking capabilities, making it an ideal choice for astrophotography and visual astronomy alike.

At the heart of the iOptron 8506 is its innovative GoTo technology, which allows users to effortlessly locate and track celestial objects. With its built-in database containing thousands of celestial targets, including stars, planets, and deep-sky objects, the mount provides a seamless experience for users of all skill levels. The intuitive hand controller features a user-friendly interface that simplifies navigation and object selection, allowing astronomers to focus on observing rather than searching.

The mount is equipped with a precision-crafted equatorial design, ensuring smooth tracking during long exposures. Its sophisticated motor system utilizes high-torque motors that offer precise movements and quick responsiveness. This precision is crucial for capturing detailed images of faint celestial bodies, where even the slightest movement can result in image blur. The 8506's tracking accuracy is enhanced by its high-resolution encoders, allowing for accurate positioning and reliable performance across various observing conditions.

Another fantastic feature of the iOptron 8506 is its payload capacity. Designed to support a range of telescopes, the 8506 can handle heavier optical tubes, ensuring stability when used for astrophotography. This versatility allows users to experiment with a variety of equipment without compromising performance.

Additionally, the mount is known for its portable design. With a lightweight construction, it facilitates easy transportation, making it suitable for both backyard observing and remote stargazing trips. Its adjustable legs ensure that it can be set up on uneven terrain, providing a stable platform for observations.

The durability of the iOptron 8506 is also noteworthy, as it is built to withstand various weather conditions, ensuring longevity and reliable performance throughout its use. Overall, the iOptron 8506 combines advanced technology, user-centric design, and outstanding performance, making it an essential tool for anyone looking to deepen their exploration of the cosmos.