📅 Updated June 2026 • 2026 Span & Lumber Data

Roof Truss Calculator

An advanced roof truss design calculator covering span, height, spacing, and lumber takeoff for 6 truss types — common, attic, scissor, fink, king post, and shed.

✓ 6 Truss Types ✓ Height & Span Calculator ✓ Spacing & Count ✓ Attic Room Size ✓ Lumber Cut List
🏗 Step 1 — Choose Your Truss Type
1
Select Truss Design
Common (King)
Standard W-truss
Attic Truss
Room-in-roof
Scissor Truss
Vaulted ceiling
Fink (W-Truss)
Most economical
King Post
Short spans only
Shed / Mono
Single slope
📏 Step 2 — Span, Pitch & Overhang
2
Enter Your Measurements
📊 Step 3 — Spacing & Building Length
3
Truss Spacing & Count
📈 Your Truss Design
🏗

Fill in Steps 1-3 above and click Calculate to see your truss height, span layout, and lumber cut list appear below.

✓ Truss height & rise • Truss count for your run
✓ Live SVG diagram • Full lumber cut list
Truss Height (Peak Above Top Plate)
0′ 0″
Common Truss • 4/12 Pitch
0 ft
Span
0
Trusses Needed
0 ft
Overall Width
0 lb
Est. Weight Ea.

📈 Live Truss Diagram

Rise (Vertical)
0 in
peak height above bottom chord
Top Chord Length
0 ft
each rafter member
Bottom Chord Length
0 ft
ceiling joist member
Web Members
0
interior support pieces
Member Qty per Truss Length Each Total Trusses Total Lumber
💡

Design Tip: Always have a licensed truss manufacturer or structural engineer stamp final truss drawings before fabrication. This calculator gives planning-stage estimates only.

Disclaimer: This calculator provides planning estimates only, not engineered truss drawings. Actual truss design, member sizing, and connector plates must be specified by a licensed truss designer or structural engineer per local building code and the governing truss design standard (ANSI/TPI 1). Always order trusses from a certified manufacturer.

Roof Truss Calculator: How to Design Your Truss in 2026

A roof truss calculator takes your building span, roof pitch, and truss type, then returns the peak height, member lengths, and the number of trusses you need for your structure. Roof trusses have replaced traditional rafter framing on the vast majority of new residential construction because they are engineered, factory-built, and significantly faster to install on site — a typical home roof can be “set” (trusses craned into place) in a single day versus a week or more of stick-framing.

This advanced truss calculator supports six of the most common residential truss profiles: common (king/fink), attic, scissor, fink, king post, and shed/mono trusses. Each truss type solves a different design problem, from maximizing attic storage to creating a vaulted cathedral ceiling, and each carries different span limitations and lumber requirements.

Quick Reference: Most residential roof trusses are spaced 24 inches on-center and span 20-40 feet using 2×4 or 2×6 lumber. A standard fink truss on a 4/12 pitch with a 28 ft span typically rises about 56 inches above the bottom chord.

Roof Truss Design: Understanding the 6 Truss Types

Choosing the right truss profile is the first and most important decision in any roof truss design. Use the truss type selector above as a free attic truss calculator, scissor truss calculator, fink truss calculator, or king post truss calculator — just pick the matching card and every result below updates for that profile. The breakdown below covers when each type is used, sourced from current residential framing standards and truss manufacturer association (SBCA/WTCA) guidance.

Common (King Post) Truss

The simplest truss profile: a single vertical king post running from the peak down to the center of the bottom chord, with two diagonal web members bracing each side. Best suited to short-to-medium spans up to about 24-28 feet. Extremely economical because it uses the fewest lumber pieces of any triangulated truss design — select “King Post” above to use this tool as a dedicated king post truss calculator.

Attic Truss (Room-in-Roof Truss)

An attic truss design raises the bottom chord partway up and adds vertical webs to frame a usable rectangular room inside the roof cavity — essentially building a room and a roof structure in one engineered piece. Run the numbers through the attic truss design calculator above (select “Attic” as your truss type) to see your projected attic truss room size before you order. The attic truss room size you get depends directly on the span, pitch, and how wide you set the vertical webs. Attic trusses require deeper top chords (often 2×6 or 2×8) and heavier connector plates than a standard truss because they carry both roof load and floor load for the room below.

Scissor Truss

A scissor truss design uses a shallower-pitched bottom chord than the top chord, creating a sloped (vaulted) ceiling instead of a flat one. Popular for great rooms, primary bedrooms, and any space where a cathedral ceiling is desired without full stick-framing. Our scissor truss design calculator mode computes the reduced bottom-chord pitch and the resulting rise differential automatically once you select “Scissor” above. The “scissor” angle (the difference between top and bottom chord pitch) typically ranges from 1/12 to 4/12 less than the roof pitch — a steeper differential creates a more dramatic vault but increases lumber and connector plate costs.

Fink Truss (W-Truss)

The most widely used residential truss in North America. The web members form a W-shape between the top and bottom chords, which is why it is also called a W-truss. Fink trusses are the most material-efficient design for typical home spans (20-36 feet) and are the default truss type most manufacturers quote unless you specifically request an alternative profile.

Shed/Mono Truss

A shed roof truss design calculator handles this profile differently than the others above, since a shed (mono) truss has only one sloped top chord running the full span with no ridge — it is essentially half of a common truss. Used for lean-to additions, porch roofs, and modern single-slope architectural roofs. Because the entire run carries the rise instead of just the half-span, shed trusses generally need deeper lumber for the same pitch and span compared to a symmetrical truss.

Shed / Mono-Pitch Truss

A single-slope truss with no ridge — one top chord runs from a high point down to a low point. Common on home additions, lean-to structures, porches, and modern single-slope roof designs. Shed trusses are calculated differently from symmetrical trusses because the rise is measured across the full run rather than half the span.

Roof Truss Span Calculator: How Span Limits Work

Span is the single biggest factor in truss design. The “span” is the horizontal distance the truss must bridge, measured wall-to-wall (not including overhangs). Every truss type, lumber grade, and spacing combination has a maximum allowable span before deflection, chord stress, or web buckling becomes a structural problem. A roof truss span calculator like this one estimates geometry (height, member lengths) for your span, but final span/load capacity is always verified by a truss engineer using software certified to ANSI/TPI 1.

Truss TypeTypical Max Span (2×4)Typical Max Span (2×6)Common Use
King Post22-26 ft28-32 ftGarages, small homes
Fink (W-Truss)28-34 ft36-44 ftMost residential roofs
Common/Howe26-32 ft34-40 ftStandard gable roofs
Attic Truss26-32 ft32-38 ftBonus rooms, storage
Scissor Truss24-30 ft30-36 ftVaulted ceilings
Shed/Mono14-18 ft18-24 ftAdditions, porches, lean-tos

* Spans shown are typical planning ranges for standard residential loads (20-30 psf live load). Actual allowable span always depends on lumber grade (No. 2 SPF vs SYP), spacing, snow load zone, and engineered plate design — always confirm with a stamped truss drawing.

Roof Truss Height and Spacing Explained

Two numbers drive almost every downstream decision in a truss order: height and spacing. Get familiar with both before you call a truss plant for a quote.

Using a Truss Height Calculator

Truss height (also called total rise) is the vertical distance from the top of the bottom chord to the peak of the top chord. It is calculated from half the span and the pitch using the same rise-over-run math as standard roof framing: height equals half the span multiplied by the pitch ratio (rise divided by 12). A wider span or steeper pitch both increase the truss height, which directly affects whether your design clears local height restrictions, gable-end window placement, and the size of the gable vent.

Truss Height = (Span / 2) x (Pitch / 12)

Example: 28 ft span, 6/12 pitch
Height = (28/2) x (6/12) = 14 x 0.5 = 7 ft (84 inches)

Roof Truss Spacing: 16″ vs 19.2″ vs 24″ On-Center

Roof truss spacing determines how many trusses you need for a given building length and directly affects both material cost and roof sheathing span ratings. The vast majority of residential roofs use 24-inch on-center spacing because it minimizes the truss count while still meeting standard sheathing span ratings (most 7/16″ OSB is rated for 24″ o.c. roof spans). Heavier roof coverings like clay tile, slate, or high snow-load regions often require tighter 16-inch spacing to keep deflection within code limits.

SpacingTrusses per 40 ft RunRelative Material CostTypical Use Case
12" OC41HighestHeavy tile, very high snow load
16" OC31HighTile/slate, moderate-high snow load
19.2" OC26ModerateMid-range load, code minimum in some areas
24" OC21Standard / lowestAsphalt shingle, standard residential

Build Your Own Trusses: What This Calculator Tells You

While the vast majority of residential trusses are factory-built and delivered pre-assembled, some owner-builders, barn projects, and small outbuildings use a build your own trusses calculator approach to frame trusses on the ground and lift them into place. If you are framing your own trusses, this calculator’s lumber cut list gives you a starting bill of materials — but you still need an engineer or truss table from your local building code (most jurisdictions reference span tables in the IRC for site-built trusses) to confirm member sizing for your specific load.

Important: Most building departments require either a manufacturer’s engineered truss drawing or a registered design professional’s stamp for site-built trusses on anything beyond a small shed or detached structure. Check with your local permitting office before fabricating trusses yourself for a habitable structure.

Residential Roof Trusses: Why They Replaced Rafters

Residential roof trusses dominate new home construction for several measurable reasons. They are engineered as a triangulated system, which distributes load far more efficiently than a stick-framed rafter and ceiling joist combination, allowing for smaller lumber sizes (commonly 2×4) across longer spans than solid-sawn rafters could achieve. They are factory-built under quality control, arrive ready to set, and a typical residential roof can be fully trussed in a single day with a crane crew, compared to a week or more of on-site rafter cutting and ceiling joist installation.

90%+
Of new US single-family homes use engineered roof trusses rather than stick-framed rafters
1 Day
Typical time to set a full residential roof truss package with a crane crew
24" OC
Most common truss spacing for standard asphalt shingle residential roofs
2×4 / 2×6
Most common lumber size for residential truss chords and webs

Roof Truss Design: Anatomy of a Truss

Every truss, regardless of profile, is built from the same three categories of structural members connected at engineered joints. Understanding this anatomy makes it much easier to read a truss drawing or discuss design changes with a manufacturer.

Peak Top Chord Bottom Chord Web Web Connector plate
A fink (W-truss) labeled with its three structural member types: top chord, bottom chord, and web members, joined at metal connector plates.
  • Top chord: The sloped outer members that form the roof surface line and carry roof sheathing, shingles, and live loads like snow or workers.
  • Bottom chord: The horizontal member that ties the two bottom ends of the top chord together and typically supports the ceiling drywall below.
  • Web members: The interior diagonal and vertical pieces that triangulate the truss, transferring load from the top chord down to the bearing points at the bottom chord ends.
  • Connector plates: Galvanized steel gusset plates pressed into both faces of the lumber at every joint, engineered to transfer tension and compression forces between members without requiring nails or bolts.
  • Bearing points: The locations (usually at the bottom chord ends) where the truss rests on and transfers load into the building’s top wall plate.
roof truss calculator

Related Roofing & Framing Calculators

Use these companion tools from roofpitch.net to plan the rest of your roof project, from pitch and sheathing through final material cost.

Frequently Asked Questions

How do I calculate the height of a roof truss?

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Truss height equals half the span multiplied by the pitch ratio (rise divided by 12). For example, a 28 ft span at a 6/12 pitch gives a height of (28/2) x (6/12) = 7 feet. This calculates the rise from the top of the bottom chord to the peak; add your wall height and heel height to get the total roof height above the foundation.

What is the difference between a fink truss and a king post truss?

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A king post truss uses a single vertical post from the peak to the center of the bottom chord with two diagonal webs, making it the simplest and most economical design but limited to shorter spans (typically under 28 feet). A fink truss uses a W-shaped web pattern with four diagonal members, which distributes load more efficiently and supports significantly longer spans (up to 36-44 feet with 2×6 lumber), making it the most common residential truss type.

How many roof trusses do I need?

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Divide your building length in inches by your truss spacing in inches, then add 1 for the starting truss. For a 40 ft (480 inch) building at 24 inch on-center spacing: 480 / 24 = 20, plus 1 = 21 trusses. Always round up and consult your truss manufacturer, since gable end trusses, hip sets, and girder trusses at openings may require additional pieces beyond this base count.

What size room can I get with an attic truss?

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Attic truss room size depends on your span and pitch. As a guideline, a 30 ft span at a 8/12 pitch can typically yield a usable room around 16-18 ft wide with 8+ ft of flat ceiling height at the center, tapering to 5 ft of headroom toward the knee walls. Steeper pitches and wider spans both increase usable attic room size; this attic truss room size calculator estimates all of that based on your specific inputs.

What is the standard spacing for roof trusses?

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24 inches on-center is the standard spacing for most residential roof trusses with asphalt shingle roofing, since it matches common roof sheathing span ratings while minimizing truss count and cost. Heavier roofing materials (clay tile, slate) or high snow-load regions often require tighter 16-inch on-center spacing to keep deflection within code limits.

Can I build my own roof trusses?

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Yes for small structures like sheds and detached garages in many jurisdictions, using span tables published in the International Residential Code (IRC) or your local building code. For habitable structures and anything beyond a small outbuilding, most building departments require either a manufacturer’s engineered truss drawing or a stamp from a registered design professional before a permit will be issued.

What is a scissor truss used for?

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A scissor truss creates a vaulted or cathedral ceiling by using a bottom chord pitched at a shallower angle than the top chord, rather than a flat horizontal bottom chord. It is commonly used in great rooms, primary bedrooms, and living spaces where a dramatic sloped ceiling is desired without the cost of full custom rafter framing.

What lumber size is used for roof trusses?

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Most residential roof trusses use 2×4 lumber for webs and chords on standard spans up to about 30 feet. Longer spans, heavier roofing materials, or attic trusses carrying floor loads commonly upgrade to 2×6 for the top and bottom chords while keeping 2×4 for interior webs. Lumber grade (No. 2 SPF, SYP, or Douglas Fir-Larch) also affects allowable span and is specified on the engineered truss drawing.

How much does a 4/12 pitch truss cost compared to steeper pitches?

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A 4/12 pitch truss is among the most economical options because the shallower rise means shorter top chord members and less overall lumber per truss. As pitch increases toward 8/12 or steeper, top chord length increases, truss height increases, and material cost per truss typically rises 10-25% depending on span, even though the footprint and span remain identical.

Do trusses need to be engineered and stamped?

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Yes, in virtually all US jurisdictions, manufactured roof trusses are designed using software certified to the ANSI/TPI 1 standard and come with a stamped engineering drawing specific to that truss design, span, and load. This stamped drawing is typically required by the building department before a framing inspection will be approved, and it specifies exact lumber grade, plate sizes, and bracing requirements.

Sources & Data

  • American National Standards Institute / Truss Plate Institute (ANSI/TPI 1) – National Design Standard for Metal Plate Connected Wood Truss Construction
  • Structural Building Components Association (SBCA) – Residential Truss Design Guidance, 2026
  • International Residential Code (IRC) – Span Tables for Site-Built Roof Framing