Tyco 579-769 6dB/division, 87dB, Equation 2-10. Directivity Factor Q for a Conical Source

Page 21

Speaker Basics, Continued

Speaker Dispersion		The figure below includes a typical polar plot graph and the interpretation of the dispersion angle.
Angle and “Q”
(continued)				Simplex 4902-9721
				Simplex 4902-9721
				Ceiling Mount Speaker
				Polar Plot - 2kHz 0º
				6dB/division
Note:	See Figure 2-5 on
	the following page
	for a more detailed
	view of a Speaker
	Polar Plot.				Ceiling
				7
				5º
					off axi
			87dB			s
			87dB			87dB
						87dB
				Dispersion Angle
				Sensitivity = 93dB @10 Feet, 1 W
				Figure 2-4. Speaker Polar Plot Interpretation
		The “Coverage Angle” is defined as the angle where the speaker SPL drops 6 dB from the
		on-axis SPL. For the speaker above, the coverage angle is 150 degrees.

Another common representation of speaker directivity is “Directivity Factor” or “Q.” For speakers having a conical coverage pattern (typical of single driver speakers used in fire alarm applications), “Q” is determined by:

	Q =	2
	Q =	⎛	θ ⎞
		⎛	θ ⎞
		1− cos ⎜	2	⎟
		⎝	2	⎠

Equation 2-10. Directivity Factor “Q” for a Conical Source

For the speaker above, the coverage angle (θ) is 150 degrees at 2 kHz, resulting in a “Q” of 2.7.

Continued on next page

2-11

Image 21

Contents Fire Alarm Audio Applications Guide Page Copyrights and Trademarks Page Table of Contents Emergency Voice/Alarm Communications Systems Glossary of Terms Related Publications Chapter Speech Intelligibility Overview Speech Intelligibility Importance Designing for Topic See Page # Chapter Background InformationBasic Audio Math Equation 2-3. Power RelationshipsEquation 2-1. The Decibel Equation 2-2. Ohm’s LawEquation 2-6. Adding Decibels Equation 2-5. dB and Sound Pressure LevelsRobinson and Dadson Equal Loudness Curves Sound and HearingSpeech Pattern that Illustrates Modulations Nature of SpeechRoom Acoustics Eyring Equation, used when α Sabine Equation, used when αAreas with high ceilings, specify a more directional speaker Equation 2-8. The Inverse Square Law Speaker BasicsEquation 2-9. On-Axis SPL Calculation SPL = Sensitivity + 20 log6dB/division 87dBEquation 2-10. Directivity Factor Q for a Conical Source 51º Critical Polar Angle Calculations 104Listener Height = 1.5 Meters Ceiling Coverage Diameter Equation 2-11. Coverage Area CalculationsSPL Variation by Layout Pattern Layout Pattern Selection Guide2x Edge-to-Edge Minimum OverlapDistributed Wall Mounted Systems Width Opposite SpeakerWall Mounted Speakers In Meters Room Coverage Width Edge-edge Minimum-Overlap Full-Overlap Chapter Speech Intelligibility Frequency of Speech Contribution to Intelligibility Influences on IntelligibilityNo Noise With Added Noise Degradation of CIS vs. Signal-to-Noise RatioBackground Noise Reverberation Distortion Measures of Intelligibility Correlation of CIS and with STI and %ALconsALcons STI method with faster measurement times STI-CIS Analyzer Talkbox Practical Measurement of IntelligibilityTools for Predicting Intelligibility Page Chapter Emergency Voice/Alarm Communications Systems Advantages Typical Emergency Voice/Alarm Communications SystemParts of an Emergency Voice/Alarm Communications System Class a and B Speaker Circuit Wiring Chapter Regulatory Issues From Nfpa 72, 2002 Edition AudibilityHigh Background Noise Large Areas Intelligibility Intelligibility Certification Page Chapter Speaker System Design Method Determine the speaker-to-listener distance D2 Speaker Design MethodRecommendations for Maximizing System Intelligibility ITool Office Space Example Applying the MethodsOffice Space Speaker Location Guide Corridor Design Example Corridor SPL Distribution Corridor Speaker Location GuideITool Gymnasium Example 10. Gymnasium Speaker Location Guide 13. Lobby Example 15. Lobby Layout Applying the Methods Conclusion Page Chapter Glossary of Terms Glossary Glossary Page Index IN-2 Page 579-769 Rev. C