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Normalmente es por la falta de tiempo y seguridad acerca de las funcionalidades determinadas de los dispositivos comprados. Desafortunadamente la conexión y el encendido de Tyco 579-769 no es suficiente. El manual de instrucciones siempre contiene una serie de indicaciones acerca de determinadas funcionalidades, normas de seguridad, consejos de mantenimiento (incluso qué productos usar), fallos eventuales de Tyco 579-769 y maneras de solucionar los problemas que puedan ocurrir durante su uso. Al final, en un manual se pueden encontrar los detalles de servicio técnico Tyco en caso de que las soluciones propuestas no hayan funcionado. Actualmente gozan de éxito manuales de instrucciones en forma de animaciones interesantes o vídeo manuales que llegan al usuario mucho mejor que en forma de un folleto. Este tipo de manual ayuda a que el usuario vea el vídeo entero sin saltarse las especificaciones y las descripciones técnicas complicadas de Tyco 579-769, como se suele hacer teniendo una versión en papel.
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Sobre todo es en ellos donde encontraremos las respuestas acerca de la construcción, las posibilidades del dispositivo Tyco 579-769, el uso de determinados accesorios y una serie de informaciones que permiten aprovechar completamente sus funciones y comodidades.
Tras una compra exitosa de un equipo o un dispositivo, vale la pena dedicar un momento para familiarizarse con cada parte del manual Tyco 579-769. Actualmente se preparan y traducen con dedicación, para que no solo sean comprensibles para los usuarios, sino que también cumplan su función básica de información y ayuda.
Índice de manuales de instrucciones
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Fire Alarm Audio Applications Guide Guideline for Designing Emergency Voice/Alarm Communications Systems for Speech Intelligibility 579-769 Rev. C © 2005 Tyco Sa fety Products - Westminster. Al l rights reserv ed. Printed in the U.S .A. All specificati ons and other information show n were curr ent as of publicati on, and are subjec t to change w [...]
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Copyright © 2 005 Tyco Safety Products – West minster. All rights reserved. All specificatio ns and ot her inform ation sho wn were curre nt as of doc ument revi sion date , and are subject to ch ange wi thout notice. Printed in the United States of America. Tyco, Simplex, and the Sim plex logo are tradem arks of Tyco International Services (AG)[...]
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iii Chapter 1 Speech Intelligibility Overvie w 1-1 Introductio n .............................................................................................................. 1-1 Chapters of this Publication ..................................................................................... 1-1 In this Ch apter ..................................[...]
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iv Influences on Inte lligibility ............................................................................................ 3-2 Introductio n .............................................................................................................. 3-2 Background Noise .........................................................................[...]
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v Step 1: Room Ch aracteristics ................................................................................ 6-2 Step 2: Calculate the Number of Speakers ........................................................... 6-2 Step 3: Audio Power and Indivi dual Speaker Watta ge Tap .................................. 6-2 Step 4: Model Design to Predict [...]
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vi Refer to the publications and web sites listed belo w for more inform ation regarding sound, speech, and audio intelligibility: • Acoustics – The Construction and Calibration of Speech In telligibility Tests ISO/TR 4870: 1991(E). • American National Stan dard Methods for Calculation of the Speech Intelligibility Index (ANSI S3.5-199 7). ?[...]
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1-1 INTELLIGIBILITY – The capability of b eing understood or comprehended. In simple terms, intelligibility is an evaluation of chang es that occur to speech that impact comprehension. More specifically, intelligibilit y is concerned with evaluating redu ctions of the modulations of speec h that cause undesi red reductions in speech com prehensio[...]
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1-2 Emergency voice/alarm comm unications systems are us ed in applications where it is necessary to communicat e more detail ed informati on to occupa nts of a bui lding than t he simple evac uation signal provi ded by ho rns or bel ls. For exam ple, in a high-rise building, evacuatio n of all of the occupants at one time could c reate an unsafe s[...]
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2-1 There are a fe w fundamental con cepts that are necessary to un derstand when working with emergency voice/alarm communications system s. This chapter introduce s basic concepts of sound, but is not intended to be an exhaustive treatment of the subject. Note: Refer to the “R elated Docum entation” sect ion at the be ginning of this ma nual [...]
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2-2 Audio enginee rs use “Decibels” (dB ) to express ratios between levels, such as power, Volts, Amps, and So und Pressure Le vels (SPL). T he d ecibel is not an absolute measure like Volts and Amps, rather i t is used t o make com parisons between t wo num bers. The decibel i s defined as the logarithm of two power levels, shown below in the [...]
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2-3 When the deci bel is used to express SPL, the reference sound pressure is 20 x 10 -6 Newtons/m² which is approximately the thresho ld for hearing for a normal listener. When using a dB meter to measure sound, the meter is perform ing the calculation between the recei ved SPL and the reference SPL: ⎟ ⎠ ⎞ ⎜ ⎝ ⎛ × = − 6 spl 10 20 S[...]
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2-4 Sound is created by mechanical vibrations that displace air m ol ecules to create repetitive changes in air pressure. The ear detect s these changes in air pressure, with the magnitude of the pressure perceived as lo udness and t he frequency of the change s perceived a s pitch. Due to the physiology of the ear, s ound pres sure does not correl[...]
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2-5 The frequency of speech ra nges over seven o ctaves from 125 Hz to 8,0 00 Hz, with t he majority of frequencies contributing to intelligibility falling betw een 500 Hz and 4,000 Hz. The creation of “phonemes,” or the sounds that make up wor ds is created by amplitude modu lation of those frequencies. Am plitude modul ations of spee ch patte[...]
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2-6 This section is provided as a su mmary of room acoustics. See the references in t he “Related Documentation” section earlier in this manual for a list of publications co ntaining more thorough discussions of this subject. Reverberation is one of the most impor tant contributors to reduced intelligibility, and is the result of sound being re[...]
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2-7 Several equations are availa ble for estim ating the am ount of re verberatio n that can be e xpected in a room. The equations take into acc ount the room dim ensions and surface m aterials to provi de a reasonably accurate estimation of a rectangular r oom’s reve rberation t ime. The f ormulas belo w are comm only used Sabine and Eyring equa[...]
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2-8 • Increasing the Signal-to-Noise Rati o: Intelligibility deg radation from reverberation is essentially a signal-to-noise issue, however when the noise is specifically caused by re verb eration it is referred to as the “Direct-to- Reverberant” ratio. Increasing the d irect sound field at the listener improves the direct to reverber ant ra[...]
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2-9 Speakers are e ssentially “point sources” of sound. S ound radiates outward in al l directions, creating a sphe rical sound pat tern. The s ound pr essure is s pread over an increasingly larger surface area as the sound m oves away from the so urce. T his causes a drop in loudne ss per unit area. The drop in SPL is refe rred to as the “In[...]
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2-10 The amount of sound t hat a speaker can be e xpected to p roduce is f ound in the speaker’s sensitivity rating provided in the m anufacturer’s lite rature. “Sensitivity” is the amount of sound (SPL) produce d by the spea ker wit h a known si gnal freque ncy, powe r level and di stance from the speaker. For fire alarm listed sp eakers a[...]
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2-11 The figure below includes a t ypical polar plot gra p h and the interpretation of the dispersion angle. 87dB 87dB Sensit i vit y = 93dB @1 0 Feet, 1 W Si m pl ex 4902- 9721 C e ilin g M ou n t S p e a k e r Pol ar Pl ot - 2k Hz 0 º 6dB/divi si on 7 5 º o ff a x i s Disper sion Angl e Figure 2-4. Speaker Polar Plot Interpretation The “Cover[...]
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2-12 Using the pol ar inform ation of the speaker, i n combi nation with the distance bet ween the spea ker and the listener, you can determin e the area that a speaker can cove r. The “Coverage Area” is defined as the plane where the SPL at the edge of the plane drops 6 dB bel ow the on-axis SPL, as illustrated below: 93dB 93dB Floor Lis tener[...]
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2-13 Real world spe akers have some polar l oss at angles less than the rated dis persion angl e. In orde r to determine the actual coverage area for a partic ular speaker, the “Critical Polar Angle” for the speaker must be found. The critical polar angle is the angle wher e the sum of the distance loss and the polar loss is 6 dB less than the [...]
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2-14 Once the criti cal polar angle has been deter mined , calculate the cove rage area for a given s peaker- to-listener distance: Coverage Circle Diameter = 2 D 2 tan ⎟ ⎠ ⎞ ⎜ ⎝ ⎛ 2 θ Coverage Area = π 2 2 2 θ tan D ⎟ ⎟ ⎠ ⎞ ⎜ ⎜ ⎝ ⎛ ⎟ ⎠ ⎞ ⎜ ⎝ ⎛ Where D 2 is the distance from the speaker to the listener and[...]
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2-15 Speakers used for emergency voi ce/alarm communication sy stem ar e wired as “Constant Voltage” systems, whe re the m aximum power out put of t he amplifier is obtained at a certain speaker voltage, such as 25 V or 70 .7 V. The power ou t put of a speaker, and thus the resulting SPL is controlled by wattage taps on the sp eakers themselves[...]
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2-16 The preceding sections apply prim arily to ceili ng mounted speakers, generally referre d to as “Distributed O verhead System s.” Another usef ul mounting strategy is the “Distributed Wall Mount System.” Under this configuration, the speakers are placed on walls or columns, and are aimed into t h e room . Advantages and disad vantages [...]
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2-17 The design o f a distribute d wall mount system is similar to an over head system , with some important differences. In a wall mount syst em the speaker -to-listener distance depends on the listener location in the room. Therefore the audibility calculatio ns must be done with the listener at the farthest distance from the speaker. In a room w[...]
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2-18 The coverage patterns for a distributed wall mount system are similar to ceiling mount designs, except only a single row is used in the pattern. Because of the typically larger potential speaker- to-listener di stance, only edge-to-edge a nd tighter spacing pat terns should be used to provide adequate intelligibility. Care must be t aken not t[...]
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3-1 Intelligibility is a measure of the capability of a message to be comprehended. In simplest terms, it is the reduction of the modulations of speech that reduce speech intelligibility. The m odulation reductions can also be thou ght of as a reduction in the signal (the speech) to noise r atio. Not all frequencies contained in speech contribute e[...]
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3-2 The figure bel ow lists the relative contri butions of eac h frequency band: Octave Band Contribution t o Intelligibility 0% 5% 10% 15% 20% 25% 30% 35% 125 250 500 1000 2000 4000 8000 Frequency component of speech Relative Contribution to intelligibility Figure 3-1. Frequency of Speech Contribution to Intelligibility Audibility is relatively st[...]
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3-3 Background no ise causes a reducti on in signal -to-noise ratio over al l frequencies and m odulations. Consider the comparison of t h e speech si gnal below with and without added noise: No Noise With Added Noise Figure 3-2. The Speech Pattern “An Emergency Has Been Reported” w ith Added Noise Creating an intelligible system in the pr esen[...]
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3-4 Some types of background noise have a greater impact on intellig ibility than others depending on the frequency content of the noise. N oise generated by several c onversations occurrin g simultaneously, such as in areas of public assembly, (an airport terminal or shopping mall) generally re quire a higher signal-to -noise rati o than noise gen[...]
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3-5 Distortion of the speech waveform can come from many sources, however it is usually exhibited by an overdriv en signal, causing the pea ks of the wavef o rm to be clipped. “Clipping” is c aused by some part of the electrical signal pat h within th e fire alarm syste m exceed i ng the capacity of the component s. The most comm on cause of cl[...]
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3-6 International Electrotechn ical Commission (IEC) 60849 defines intellig ibility as: “a measure of the proportion of the content of a speech message that can be c o rrectly understood.” Because “understanding” involves evaluation by a human, intelligib ility is by definition difficult to quantify abso lutely. What is intelligible to one [...]
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3-7 As described i n Chapter 2, speech consists of the frequency of the sound being uttered and the amplitude modulation of that sound into the p honemes that create words. The STI (Speech Transmissi on Index) met hod measures the modul ation transfer fu nction for 14 modulation frequency bands spaced at 1/ 3-octave intervals from 0.63 Hz to 12.5 H[...]
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3-8 Measurement of intelligibility can be complicated, and it sometimes includes subj ective analysis. To effectively implement intelligible systems in r eal buildings requires that a simple, accurate, and repeatable method of measuring intelligib ility must be available. Fortunately, there are instruments on the market that m eet this need . One o[...]
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3-9 Several tools varying in levels of co mplexity can assist the sound system designer in producing a system of acceptable intelligibility. These range fr om simple layout guides for speaker placem ent to complex c omputer modeling to ols which can accurately simulate and predict s ound system performance in complex spaces. These tools also have t[...]
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3-10[...]
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4-1 An emergency voice/alarm communica tio ns system is designed to provide a highly reliable voice reinforcement and distribution net work. Th ese systems must del iver messages to building occupants fo r evacuation i n an organized and sa fe manner. The system can deliver recorded messages automatically before emergency personnel arrive at the sc[...]
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4-2 The figure below illustrates a typical emergency voice/alarm co mmunications system: Figure 4-1. Typical Emergency Vo ice/Alarm Communications System While an emergency voice/alarm co mmunications sy stem is similar to a non-emergency paging system, there are certain features that m ake emer gency system s much more reliable than standard pagin[...]
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4-3 A command center shoul d be located at the buildin g entranc e and act as a communications center for emergency personnel. T he command center is use d to display the sys tem status an d control the annunciation system. This area typically in cludes the equipment requ ired to generate and distribute messages throughout th e building’s emergen[...]
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4-4 Speaker circuits convert electrical power from am p lif iers into sound. These circuits are wired in a daisy-chain fashion, with a single path of electrical continuity from the NAC to the last speaker in the circuit. The speaker circ uits can be wired in Class A or Class B configurations. Class A operation allows the circuit to operate through [...]
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5-1 The governing specifications for the US Fire Alar m Market are found in the installation standa rd, NFPA 72 ® “National Fire Alarm Code.” The fire alarm audio system is defined within the class of “Notification Appliances.” NFPA 72 defines, am ong other things, requirements for audibility and intelligibility. Some key spec ifications f[...]
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5-2 For emergency messages to b e heard, NFPA 72 su ggests that the sound level of t h e emergency evacuation tone to be measured at 5-feet. This is the average “ear l evel” of someone standi ng. The messages must be 15 dBA above normal ambient sound or 5 dBA above sounds lasting longer than 60 seconds. When performing a site inve stigation for[...]
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5-3 To meet the 15 dBA requirement, there are cases where high levels of ba ckground noise requ ire extremely hi gh levels of emergency an nunciation t o overcome the noise. Whe n backgr ound noise exceeds 105 dBA or when the SPL calculations requ ire greater than 110 dBA, the use of visual notification applian ces is warranted. There are cases whe[...]
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5-4 Intelligibility has historically been a difficu lt parameter to measure. Unlike SPL that can easily be measured with a relatively common dBA meter, intelligibility measurements have previously required trained aco ustical engineers or sophisticated/high end evaluations. NFPA 72 requires that voice messages to areas of buildings be intelligible [...]
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5-5 There is significant explanatory in formation in Annex A, recently revised for the 2002 edition : From NFPA 72, 20 02 Edition: A.7.4.1.4. The designer of an intelligib le voice/alarm system should possess skills sufficient to pr op erly design a voice/ alarm system f or the occupancy to be prot ected. System desi gns for many smaller occupancie[...]
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6-1 This chapte r covers a de sign methodology t hat can be used to design a speaker system for an emergency voice/alarm communications system . The ability to design an emergency voice/alarm communication s system which is highly intelligible at a reason able cost, represents a significant advan tage to the customer. Achieving an acceptable level [...]
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6-2 The steps below summarize the s p eaker system de sign method. Use these steps in conjunctio n with the Tyco Safety Products iTool (described later in this chap ter). Determine if the room requires advanced desi gn methods. Some characteristics of a difficult location/space include: • High Backgroun d Noise Levels (Greater than 80 dB) . • L[...]
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6-3 Use the following recommendatio ns to maximize system intelligibility: • Ensure at least an 8 dBA signal-to-noise ratio with regard to the speech signal. Note: This can resu lt in a higher th an 15 dB signal-to -noise ratio for notificatio n tones. If the notification tones becom e too loud for a partic ular locati on, consider r educing the [...]
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6-4 The following examples illustrate the design methodology outlined earlier in this chap ter. For these exam ples, computer based m odeling was employed usi ng Tyco Safet y Products “i Tool” to demonstrate intellig ibility. Note: See the iTool Installation and User’s Guide (579-772) for iTool installation an d operation instructions. The sc[...]
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6-5 Click the “Speaker Location” tab on th e iTool for more detailed information. The following screen shows a speaker locatio n guide for the office space: Figure 6-2. Office Space Speaker Location Guide SPL distribution information, rev erberation time results, and speaker co verage inf o rmati on are also available: Continue d on next page A[...]
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6-6 In this example, consi der a standard offi ce co rridor with the following specifications: • Dimensions = 100’ L x 12’ W x10’ H • Flooring = T i l e • Ceiling = Acoustic Tile • Walls = Gypsum over 2” x 4”, (16” on center) • Ambient Noise = 60 dB Figure 6-5. Corridor Design Example The following basic results are attained f[...]
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6-7 Click the “Speaker Location” butto n on the iTool for more detailed information. The fo llowing screen shows a speaker locat ion guide for the corridor: Figure 6-6. Corridor Speaker Location Guide SPL distribution information, rev erberation time results, and speaker co verage inf o rmati on are also available: Continue d on next page Apply[...]
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6-8 Gymnasiums are notoriousl y bad acousti c environm ents. Extremely high reverberation times can be expected because of the la rge room volume pl us the hard walls, wood floors, and plast er or metal ceilings. Gymnasiums typically require surface treatments and s ound absorbers and specialized spe aker clusters and/or spea kers with high Q va lu[...]
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6-9 Click the “Speaker Location” butto n on the iTool for more detailed information. The fo llowing screen shows a speaker locatio n guide for the gymnasium: Figure 6-10. Gymnasium Speaker Location Guide SPL distribution information, rev erberation time results, and speaker co verage inf o rmati on are also available: Continue d on next page Ap[...]
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6-10 During an intelligibility surv ey in an office building, an employee lobb y area measured 0.60 CIS intelligibility, failing the NFPA suggested 0.70. This room is characterized by tile floor, hard walls, and one wall made up mostly of glass, see t he figure below. The SPL is adequate a t 79 dB for an aver age background noise level of 47 dB. Fi[...]
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6-11 The existing design had two wall mounted s peakers, to the left and right of the entrance doo rs. Figure 6-15. Lobby Layout The following screens below show the lobby speaker location guid e and t he SPL distribution for the lobby: Continue d on next page Applying the Methods, Continued Example 4: Lobby, ( continued ) Figure 6-17. Lobby SPL Di[...]
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6-12 The followin g screen shows t he reverberati on time and s peaker coverage inform ation: Figure 6-18. Lobby Reverberation Time and Speaker Cov erage Information Applying the Methods, Continued Example 4: Lobby, ( continued )[...]
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6-13 Designing Emergency Voice/Alarm Communicati ons Systems for Speech Intelligibility requires awareness of the area dimensions, a nticipated background noise level; wall, ceiling , and floor materials; anticipated occupancy, and any other characteristics that may influence the desired acoustical properties. This guide has prese n ted a su mmary [...]
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7-1 This chapter contains a glos sary of technica l terms that are used throughout th is manual. Refer to the page num ber listed i n this tabl e for information o n a specific topi c. Topic See Page # Glossary 7-2 Chapter 7 Glossary of T erms Introduction In this Chapter[...]
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7-2 This list provides brief descriptions of va rious terms relating to this publication: ABSORPTION COEFFICIENT – The rat io of absorbed-to-re fl ected sound. The abso rption coefficient has a range of 0 to 1. “A” WEIGHTED DECIBEL – The ear is less sensitive to low frequency pitch at low volume levels, the “A” weighted correction curve[...]
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7-3 DISTOR TION – The undesired change i n the waveform of a signal that can lead to dimini shed clarity in rece ption or reproduct ion. ECHO – The repetition of sound by reflectio n of sound waves from a surface. FIBER OPTIC RISER – An a nalog or digital risers that uses fi ber optic distribution media. Fiber optic sy stems have t he advanta[...]
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IN-1 % %ALcons, 3-7 A acoustical treatment, 2-7 acoustics, 2-6 AHJ, 7-2 Amplifiers, 4-3 audibility, 5-2, 7-2 audio riser interface m odules, 4-3 B background noise, 3-3, 5-3 C Ceiling hei ght, 2-14 CIS, 3-6, 7-2 clipping, 7-2 combination sy stem, 7-2 command ce nter, 4-3, 7-2 Common Intelligibility Scale (CIS), 3-6 constant voltage, 7-2 coverage a [...]
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IN-2 speaker dispers ion angle, 2- 10 Speaker layout patterns, 2-15 speaker placem ent, 2-7 speaker, sensitivity, 2-10 speech pattern, 3-4 speech pattern , modulations , 2-5 STI method, 3- 7, 7-3 STI-CIS Intelligibility Measu rement System, 3- 8 STIpa, 3-7 STITEL, 3-7 system desi gn tools, 3 -9 T transponder, 4- 3, 7-3 V voice alarm systems, 4-2 W [...]
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7-1 579-769 Rev. C Printed in the U.S.A . Specifications and other information shown were current as of pub lication, and are subject to change wit hout notice. © 2005 Tyco Safety Products – Westminster. All rights reserved.[...]