Telescope Comparison
Celestron NexStar 130SLT vs Orion SpaceProbe 130ST EQ Reflector
One finds objects for you. The other makes you earn them.
First light
Celestron · 130mm · £499
The guided beginner's telescope
- 130mm newtonian reflector on a computerised mount with motorised tracking
- Good for: Moon, planets, bright nebulae, star clusters, and deep-sky objects
- GoTo system finds any object in its database after initial star alignment — no star atlas needed
- Tracking motors keep objects centred as Earth rotates — useful above 100×, essential for photography
- 8.5kg total — requires a fixed garden spot or car transport
Orion · 130mm
The sky-learner's equatorial scope
- 130mm newtonian reflector on a manual equatorial mount
- Good for: Moon, planets, bright star clusters and nebulae
- Setup includes rough polar alignment before observing — more steps than a simple alt-az
- Mount axes feel counterintuitive at first; users find they become natural after several sessions
- Keeps the door open for adding tracking motors and moving into astrophotography later
The full picture
The numbers that separate these two scopes — and what they mean at the eyepiece.
Aperture
Equal light-gathering. Aperture won't settle this comparison — the mount, focal ratio, and observing experience are what differ.
Focal length
Same focal length — identical magnification with any given eyepiece. Differences come from optical design and coatings.
Focal ratio
Same focal ratio — the same eyepiece gives equivalent magnification and true field in both scopes.
Mount type
Celestron NexStar 130SLT adds GoTo — it finds any target in its database after alignment. Orion SpaceProbe 130ST EQ Reflector requires manual navigation.
Weight (OTA)
Celestron NexStar 130SLT's optical tube is 1.6kg lighter. Relevant if you plan to use it on multiple mounts or carry the tube to dark-sky sites separately.
Optical design
Both are Newtonian reflectors — the same optical formula. Any performance difference comes from collimation quality, focal ratio, and eyepiece choice, not the design itself.
At the eyepiece
Both scopes · same aperture
Both are 130mm Newtonian reflectors — light gathering is identical. What you see through each depends on your eyepieces, your sky, and the steadiness of the atmosphere, not which scope you bought. Saturn's rings separate clearly from the disk; in good seeing, the Cassini Division — the dark gap between the A and B rings — is a genuine target at moderate magnification. Jupiter shows two equatorial cloud bands reliably, four Galilean moons changing position night to night. The Orion Nebula (M42) shows real nebulosity around the Trapezium, which splits into four stars at moderate magnification. The Andromeda Galaxy (M31) fills a wide-field eyepiece, the bright core distinct from the outer halo. What separates these scopes is the mount, the setup experience, and where you can use them — not what you see through them.
The real tradeoff
Both scopes are capable. The question is which one fits the way you actually observe.
The Celestron NexStar 130SLT handles object location automatically — align once, then it slews to anything in its database. The Orion SpaceProbe 130ST EQ Reflector asks you to navigate by star-hopping with a finder scope and sky chart.
For most beginners in light-polluted areas, GoTo removes the biggest early frustration: not being able to find anything. Choose the Orion SpaceProbe 130ST EQ Reflector if learning the sky manually is genuinely part of what you want from the hobby.
The dark side
Every scope has a personality. Here’s where each one gets difficult.
Celestron
Celestron NexStar 130SLT
Alignment required every session
GoTo star alignment cannot be skipped — the mount needs to know where it is pointing before it can find objects. This adds several minutes to the start of every session, every time.
Collimation: the skill nobody mentions in the listing
The mirrors go out of alignment with use. Stars look bloated rather than sharp when this happens. Users report that a Cheshire eyepiece makes collimation straightforward once learned, but most beginners don't discover they need it until their second or third month.
Orion
Orion SpaceProbe 130ST EQ Reflector
Mount axes feel counterintuitive at first
An equatorial mount does not move up/down and left/right as you expect — it follows the rotation of the sky. Users consistently report that it takes several sessions before it begins to feel natural.
Collimation: the skill nobody mentions in the listing
The mirrors go out of alignment with use. Stars look bloated rather than sharp when this happens. Users report that a Cheshire eyepiece makes collimation straightforward once learned, but most beginners don't discover they need it until their second or third month.
Which is right for you?
Two different buyers. Two different right answers.
The guided beginner's telescope
Celestron · Celestron NexStar 130SLT
You’ll love this if…
- You want to navigate straight to targets without a star atlas — align once and the scope slews to any object in its database on demand
- You observe from a light-polluted garden where star-hopping to faint deep-sky objects would take most of a clear night
- You want objects to stay centred at high magnification without having to manually nudge the scope every few minutes
This will frustrate you if…
- You find the star alignment required at the start of every session frustrating — GoTo alignment cannot be skipped, and several minutes on a cold night before you can observe is the reality
- You notice that stars look bloated rather than sharp and don't know why — users report this is usually a collimation issue that's straightforward to fix once you know about it, but the listing doesn't mention it
The sky-learner's equatorial scope
Orion · Orion SpaceProbe 130ST EQ Reflector
You’ll love this if…
- You want to understand how an equatorial mount works — and you're prepared to spend a few sessions on polar alignment before it becomes second nature
- You plan to observe from a fixed spot in the garden, where the mount can stay roughly polar-aligned between sessions
- Astrophotography is on your radar even if you're not starting there — this mount keeps that option open with a motor drive upgrade
This will frustrate you if…
- You find the equatorial mount's axes feel wrong — objects move in unexpected directions and polar alignment adds a step each session that takes several outings to become automatic
- You notice that stars look bloated rather than sharp and don't know why — users report this is usually a collimation issue that's straightforward to fix once you know about it, but the listing doesn't mention it
Our verdict
The Celestron NexStar 130SLT handles object location automatically — align once, the scope slews to anything in its database. The Orion SpaceProbe 130ST EQ Reflector asks you to navigate by star-hopping, which takes longer but builds real sky knowledge.
For most beginners, the Celestron NexStar 130SLT removes the biggest early frustration: not being able to find anything from a light-polluted garden. The Orion SpaceProbe 130ST EQ Reflector is the better choice if learning the sky manually is part of why you want a telescope. If I had to choose for a first-time buyer: the Celestron NexStar 130SLT — find things first, learn the sky later.
Celestron NexStar 130SLT
View Celestron NexStar 130SLT →Orion SpaceProbe 130ST EQ Reflector
View Orion SpaceProbe 130ST EQ Reflector →Deep field: Full specifications
Every data point, for those who want to go further.
Full specifications
Fields highlighted in blue or amber indicate the better value for that spec. Data is manufacturer-stated and may vary.
How much can it see?
| Spec | Celestron NexStar 130SLT | Orion SpaceProbe 130ST EQ Reflector |
|---|---|---|
Aperture The most important spec — bigger = more light = better views | 130mm | 130mm |
Focal Length Longer = more magnification potential | 650mm | 650mm |
Focal Ratio Lower f-number = wider field of view; higher = more magnification per eyepiece | f/5 | f/5 |
Optical Design The type of optics — each design has different strengths | Newtonian Reflector | Newtonian Reflector |
Coatings Better coatings = more light transmission through the optics | Fully multi-coated parabolic mirror | Parabolic primary mirror with multi-coated optics |
How do you point it?
| Spec | Celestron NexStar 130SLT | Orion SpaceProbe 130ST EQ Reflector |
|---|---|---|
Mount Type The mechanical system that holds and moves the telescope | GoTo (Computerised) | Equatorial |
GoToⓘ Computer-controlled pointing — finds any of thousands of objects automatically | ||
Trackingⓘ Motor keeps objects centred as the Earth rotates — essential for astrophotography |
The focuser
| Spec | Celestron NexStar 130SLT | Orion SpaceProbe 130ST EQ Reflector |
|---|---|---|
Focuser Size 2" accepts wider eyepieces and gives better low-power views | 1.25" | 1.25" |
Focuser Type Rack-and-pinion is standard; Crayford and dual-speed are smoother | Rack and pinion | Rack and pinion |
Size & weight
| Spec | Celestron NexStar 130SLT | Orion SpaceProbe 130ST EQ Reflector |
|---|---|---|
OTA Weightⓘ Optical tube only — useful for comparing mount load capacity | 2.9kg | 4.5kg |
Total Weightⓘ Full setup including mount — this is what you lug to the car | 8.5kg | 9kg |
Tube Length | 620mm | 630mm |
Tube Material | Steel | Steel |
What's in the box?
| Spec | Celestron NexStar 130SLT | Orion SpaceProbe 130ST EQ Reflector |
|---|---|---|
Eyepieces Included eyepieces — more is better, but quality matters more than quantity | 25mm and 9mm eyepieces | 25mm and 10mm Sirius Plössl |
Finder Scope Helps you locate areas of the sky before switching to the main eyepiece | StarPointer red dot finder | EZ Finder II red dot |
Diagonal Tilts the eyepiece 90° for comfortable viewing — useful on refractors |
Blue highlight: Celestron NexStar 130SLT advantage · Amber highlight: Orion SpaceProbe 130ST EQ Reflector advantage · Greyed cells: equal or subjective.