403 Katy Ln, Collier Twp, PA 15071
- 3 beds |
- 3 baths |
- 2,003 sqft
Condominium
Built in 2004
—— sqft lot
—— car garage
$170/sqft
Listed 25 days ago
Property Description
Easy living begins at 403 Katy Lane, nestled in the beautifully maintained Summer Ridge community, where attractive landscaping, a convenient location, and low-maintenance living come together seamlessly. Step inside to a bright, open floor plan with vaulted ceilings and skylights, designed for everyday comfort and effortless entertaining. The spacious living and dining areas flow naturally through sliding glass doors to the rear patio, creating the perfect spot for morning coffee or unwinding at the end of the day. The main-level primary suite offers the ease of first-floor living, complete with a private ensuite bath and generous walk-in closet. Upstairs, a versatile loft-style den provides the flexibility for a second living area, home office, or hobby space, along with two additional bedrooms and a full bath. Thoughtful functionality continues with a two-car garage that connects directly to the laundry and mudroom area, making daily routines simple and organized. Lovingly maintained by its original owner and designed for modern-day living, this home offers the perfect blend of comfort, convenience, and space in all the right places.
- Listing Status:
- Active
- Data Last Updated:
- July 5, 2026 at 9:16PM
- Listing Office:
- PIATT SOTHEBY'S INTERNATIONAL REALTY : 412-471-4900
- Listing Agent:
- Kelley Homitsky : 412-471-4900
- MLS ID:
- 1759276

- Style: Other
- Pool: None
- Parking: Built InGarage Door OpenerParking spaces: 2
- Roofing: Asphalt
- Windows: Multi Pane
- General: Brick
- HOA Amenities: 190.0Monthly
- Originating MLS: WESTPENN_WPN
- School District: Chartiers Valley
- County: Allegheny-Northwest
- Water: Public
- Sewer: Public Sewer
- Source: WESTPENN_WPN
This listing courtesy of Kelley Homitsky , PIATT SOTHEBY'S INTERNATIONAL REALTY
Monthly Payment
- Principal & Interest $
- Property Taxes $
- Home Insurance $
- VA Funding Fee $




