Dayton Audio DC25T-8
tweeter · EBP 576 → suits a ported box · nominal (partial) — Dayton Audio datasheet (https://www.daytonaudio.com/images/resources/275-045-dayton-audio-dc25t-8-specifications-46190.pdf)
Thiele/Small parameters
| Fs (resonance) | 1468 Hz |
| Qts | 0.47 |
| Qes / Qms | 2.55 / 0.58 |
| Vas | — |
| Re / nominal Z | 7.7 Ω / 8 Ω |
| Xmax | — |
| Sensitivity | 93 dB (2.83 V/1 m, mfr) |
| Power handling | 50 W |
Published (nominal) values, params partial — verify by measurement (DATS/REW) before building.
Datasheet (PDF) ↗ — manufacturer-hosted
Recommended enclosures
This is a tweeter; Thiele/Small box parameters are not used for enclosure design.
Affiliate disclosure: some links are affiliate links and we may earn a commission on qualifying purchases at no extra cost to you. Prices are estimates at the time of writing; verify on the retailer's site.
About this driver
The Dayton Audio DC25T-8 is a 1″ tweeter with a free-air resonance of 1468 Hz and a total Q (Qts) of 0.47. Its efficiency-bandwidth product (EBP) of 576 points toward a ported alignment. See the sealed vs ported guide for how to choose.
Recommended partners
modeled estimateThe woofers and midranges below pair well with the Dayton Audio DC25T-8 in a two-way design — each grade is a modeled estimate of the crossover match, with a suggested crossover point. Open any pair in the guided builder to design the crossover and total the parts.
- Dayton Audio ND65-4Good match· 92/100
Suggested crossover 3.70 kHz (4th-order, Linkwitz-Riley)
Build this pair → - Dayton Audio RS75-4Good match· 92/100
Suggested crossover 4.21 kHz (4th-order, Linkwitz-Riley)
Build this pair → - Dayton Audio RS75T-8Good match· 92/100
Suggested crossover 4.21 kHz (4th-order, Linkwitz-Riley)
Build this pair → - Tang Band W0-2008SGood match· 92/100
Suggested crossover 12.34 kHz (4th-order, Linkwitz-Riley)
Build this pair → - Tang Band W1-1070SHGood match· 92/100
Suggested crossover 5.01 kHz (4th-order, Linkwitz-Riley)
Build this pair → - Tang Band W1-1815SAGood match· 92/100
Suggested crossover 6.88 kHz (4th-order, Linkwitz-Riley)
Build this pair →
Modeled estimate from T/S + geometry — no measurements. The verdict is robust; it improves with measured FRD/ZMA data.