Manual - KJB Security Products
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1. 1A TRANSDUCER TRN 2000 Size 3x 1 4in 7 6 x 3 1 cm Weight 1 Ibs 454 g Impedance 6 ohms OMNI SPEAKER OMS 2000 Size 5 x 5 4 in 12 7 x 14 6 cm Weight 2 Ibs 907 g Impedance 24 ohms PRECAUTIONS e Do not connect more than three transducers in parallel or loads that present impedance less than 2 ohms to the output Avoid areas with high moisture Do not drop Provide adequate ventilation around the ANG 2200 Avoid extreme temperature exposure below 22F 30C or above 122F 50C e There are no serviceable parts inside Contact your dealer or Research Electronics Inc for repairs Opening the unit will void the warranty 22 APPENDIX A REI Audio Noise Masking Countermeasures and Voice Spectrum Analysis Abstract Using audio noise to mask confidential conversation and to provide a countermeasure to eavesdropping is a useful technique that has been utilized for many years however it is a basic technology that is often misunderstood and improperly implemented This article is intended to provide a good understanding of the effects of voice band noise masking and some guidance about proper implementation BACKGROUND Perimeter Masking Techniques Important principles e If two people can hear each other talk and there is a microphone in close proximity to the people then the microphone can hear the conversation as well e Ifa single noise generating device 1s placed between two people it2. Screw the 10 24 threaded rod included with the TRN 2000 into the transducer 4 Turning the transducer clockwise into the wall fastener tighten the TRN 2000 until it is firm DO NOT TIGHTEN EXCESSIVELY figure 4C SHEETROCK Figure 4 Plastic Disk Mounting The transducer may be attached to plate glass windows or other smooth surfaces using the plastic mounting disk The glass must be firmly mounted to avoid vibration la For temporary mounting use double stick tape included with the plastic disk and press the disk firmly to the clean and dry surface figure 5 eT i Eih f oN F F LI a Li E l oe stick Ao he ei Figure 5 TRANSDUCER INSTALLATION REI lb For permanent mounting discard the double stick tape and use a small amount of clear silicone exterior caulking compound Place a small thin layer across the disk and press firmly and evenly to minimize air bubbles This method provides better coupling for high frequency response Allow the adhesive to set as recommend by the manufacturer usually 24 hours figure 6A 2 Screw the Transducer clockwise onto the plastic disc until firm DO NOT TIGHTEN EXCESSIVELY figure 6B j 1 il if i ri fc l EAR SILicone CALLA ce Faas Figure 6 Attn Be sure not to over tighten the transducer The plastic insert may be damaged SPEAKER INSTALLATION REI INTRODUCTION Omni Masking Speakers should be place
3. 00 sec O 00 sec a gt m ve 7 When a Satisfactory Reference measurement has been recorded click Pause to freeze the internal settings and prepare to analyze the noise masking capability The following graphic is a good example of a reference measurement Note this example used music as a reference source indicated by the many dominant frequencies 1n the spectrum Human voice would not have the dominant higher frequency components displayed here 33 APPENDIX A REI Ba ANG Spectrum Analyzer r s ee m U EAT 8 Analyz ng and Adjusting the Noise Levels e After the Reference measurement has been taken turn on the masking noise source ANG 2200 e Press the Analyze button to begin the Analysis process e When the integration process is completed adjust the ANG Level control to increase or decrease the overall noise level and use the Slope adjustments to adjust the noise to the frequency response The following two screen shots depict analysis and adjustment scenarios The first graphic shows a noise level that is very weak at the low end Band 1 of the frequency spectrum The second graphic shows the noise masking level after the slope of the noise frequency spectrum has been adjusted Even in the second graphic the masking level in Band appears weak in some areas but the overall average of the noise masking level is still well above the desired level The desired masking
4. One transducer placed every eight linear feet centered between floor and ceiling Mount on or within six inches of a stud FLOOR and CEILING One transducer centered on every sixty four square feet Use the OMS 2000 speaker for drop ceiling WINDOWS One transducer placed on every major frame of glass within six inches of the corner DOORS One transducer placed adjacent to the center hinge on the doorframe Note Shielded Screen Rooms are shielded against R F devices transmitting out of the room but not necessarily against acoustic leakage During Construction or remodeling of a screen room the transducers can be mounted on the frame members and then acoustic insulation and a decorative panel can be installed to the inside wall surface This will help isolate the noise generated from the room as well as decrease the acoustic leakage out of the room TRANSDUCER INSTALLATION REI MOUNTING Three basic mounting methods are suggested for transducers Direct Screw for solid surfaces Hollow Wall Anchor for drywall sheetrock plaster and other soft or brittle materials and Plastic Disk for flat smooth surfaces such as glass and plastic Attn Always mount the transducer before connecting the wiring The disconnect terminals supplied with each transducer easily push on to the lugs This eliminates twisting the wire Direct Screw Mounting A Screw Adapter is provided with a dual head One end has 10 24 ma
5. does not work well to mask the conversation The main reason is the location of the noise generating source If the two people can talk above the noise and hear each other then so will a covert microphone e Note Noise Masking countermeasure techniques should only be considered a perimeter function e Proper method Design a noise masking perimeter so that listening devices at the edge or outside of the perimeter will have difficulty acquiring intelligible audio 23 APPENDIX A REI Illustration Perimeter noise masking design for conference room see diagram e Noise masking transducers placed along the walls and along the glass e Noise masking speakers within the ceiling spaces If the masking noise level is properly adjusted and a listening device is placed within walls or in the ceiling then the listening device will pick up masking noise and the potential loss of information is greatly reduced However if a listening device is brought into the room near the conversation area then the perimeter noise masking system can be ee Wall Mounted Transducers Mounted Transducers In ceiling Masking Speakers Se B A Office A All Restroom All Restroom Office LA oag q Janitorial j Closet B iVINDOWS 2 B B ii TRN 2000 Provides perimeter protection for walls and windows OMS 2000 Provides protection from ceiling devices mounted in drop ceilings Basic Design Layout SHEETROCK Install
6. energy associated with higher frequency consonant sounds Some basic audio frequency characteristics Minimum Maximum Frequency Frequency Hi Fidelity Music 20 Hz 15 kHz Audio Normal Hearing 13 kHz Telephone Audio 300 Hz Note While much of the voice band energy is below 300HZz the telephone system basically ignores this energy This works because most of the sound that affects the intelligibility of audio exists between 300 Hz and 3kHz Furthermore this is the accepted frequency band for most voice band communications 26 APPENDIX A REI One last point is that human hearing responds in a logarithmic manner In other words humans hear better at higher frequencies 1500Hz to 6000HZz as indicated below by the Threshold of Hearing curve Se hs Te ee Oe Terr Ne TENT att te TN ROHE te CETE eet ane NEM T EUC E ST 100 1000 Frequency Hz amp g a Average Sound Intensities for Human Hearing Courtesy of Bell Telephone Laboratories Conclusion Much voice band energy exists below 300Hz but the frequency range that should be masked most effectively is from 300Hz 3 kHz This conclusion is based on the normal range of voice band energy that affects the intelligibility of conversation and the human ear s ability to hear at those frequency ranges 27 APPENDIX A REI WHITE NOISE AND PINK NOISE There are systems that advertise White Noise and some that advertise Pink Noi
7. level and frequency control In large areas more than one ANG 2200 should be employed When diagramming a room for acoustic protection follow these guidelines for proper system operation Group solid cement concrete walls and floors on the same output Group windows and OMS 2000 speakers on the same output when conserving outputs Do not mx OMS 2000 speakers in series with transducers The impedances are different When there are not the correct number of transducers to achieve a proper power level use resistive attenuators figure 10 provided by Research Electronics to divide the power down to 1 2 Power and 1 3 Power Example 1 3 power is needed but there are only two transducers Use a 6 ohm resistive attenuator in series with the two transducers to achieve 1 3 Power Substitue fe anmnsducer Substitue for 1 OMS speaker Pe Te Substitue fe amsducers Substitue for 2 OMS speakers fr r Figure 10 Attn Damage to your ANG 2200 may occur if improperly wired Minimum total load is 2 ohms When a load less than 2 ohms is connected and the volume is increased the Overload Light will turn on indicating a current overload figure 11 woo x Figure 11 SYSTEM SETUP REI CONNECTIONS TRANSDUCERS Figure 12 shows the three power combinations for transducers Use Full Power transducers for solid or cement walls floors and ceilings Use 1 2 Power transducers for typical drywall or less dense s
8. these levels will be correct for each location These settings should only be used as starting points for calibration methods described in the next section FREQUENCY CONTROL Table 1 Surface LF Slope Control HF Slope Control 5 Floors Ceiling Glass Windows Speakers 9 5 to 6 Figure 15 OUTPUT LEVEL Table 2 The Red LED 10 indicates excessive level Avoid operation where the Red LED stays on continuously ea 2345678910 Figure 16 TUNING AND TESTING REI CALIBRATION METHODS The goal is to find the most vulnerable surface areas and adjust the ANG 2200 s controls to provide enough masking noise to conceal acoustic leakage at these points The weakest areas are usually the surfaces of the wall or window furthest away from a transducer or the ceiling at the maximum distance away from a speaker These areas are potentially the greatest threat and if they are protected the rest of the perimeter of the room is protected METHOD 1 Low Tech Needs Contact Microphone Audio Amplifier and a Known Sound Source Radio or high quality recording of conversation The sound source should be situated in the room in a location where conversations will be conducted and set to a volume representative of normal room conversation Use the contact microphone and audio amplifier to check the perimeter of the room for acoustic leakage points After marking the areas of greatest concern turn on the AN
9. yeterence aller EEES Senin ti eer 35 APPENDIX A REI Conclusion The ASA 2000 software provides a useful method for properly setting up testing and calibrating a noise masking system Furthermore ASA 2000 can help reduce any confusion over White Noise Pink Noise and blanket noise masking Consider the following e Different structural surfaces have different responses to audio Some surfaces will respond more to high frequencies and some will respond to low frequencies and many surfaces will have characteristic resonant frequencies e Many surfaces in a building will have inherent ambient noise from the building itself This ambient noise may be due to Structure borne audio sources such as traffic noise machinery people walking elevators printing machines etc e When measuring noise surfaces it is easy to introduce error These errors may be due to many factors such as the placement of the Acoustic Leakage Probe the method of holding the contact microphone and the inherent noise in the sound card system used to measure the noise spectrum The ASA 2000 system is based on the comparison of before and after noise masking of all of the frequencies in the voice spectrum This approach ignores the exact definition of White or Pink Noise and provides acoustic noise masking that is designed and calibrated for the specific masking application at hand 36 APPENDIX B REI RACK MOUNT SYSTEM Rack Mount System available for s
10. ANG 2200 Acoustic Noise Generator Owner s Guide Research Electronics Intl 455 Security Place Algood TN USA 38506 4941 1 931 537 6032 www research electronics com TABLE OF CONTENTS INTRODUCTION TRANSDUCER INSTALLATION SPEAKER INSTALLATION SYSTEM SETUP TUNING AND TESTING SPECIFICATIONS APPENDIX A Audio Noise Masking Countermeasures And Voice Spectrum Analysis APPENDIX B Accessories RE 11 13 18 ZZ 23 J INTRODUCTION REI n a n 455 Security Place Algood TN USA 38506 4941 1 931 537 6032 www research electronics com ANG2200 REI would like to thank you for purchasing the ANG 2200 acoustic noise generator The ANG 2200 is designed to help defend against listening devices that depend on acoustic energy being transferred through structural elements of your immediate environment such as windows walls ceilings ductwork or plumbing The combination of the ANG 2200 proper transducer and speaker installation and an educated operator will contribute to a strong perimeter of protection NOTE The ANG 2200 does not offer protection from recording or transmitting devices located within the perimeter the ANG 2200 only provides protection against structure bound audio leakage REI recommends a thorough countermeasures sweep accompanied by a physical search to be performed prior to the installation of the ANG 2200 system and periodic sweeps thereafter to ensure the integrity of t
11. G 2200 at a low level and check each of the marked areas for leakage If the sound source can be heard and understood then increase the level and repeat the test Repeat these steps until the sound source cannot be heard Frequency controls are more difficult to adjust using this method and can be increased or decreased according to the experience and judgment of the user 20 TUNING AND TESTING REI METHOD 2 High Tech Needs Contact Microphone Computer loaded with the ASA 2000 software and a Known Sound Source Radio or high quality recording of conversation The sound source should be situated in the room in a location where conversations will be conducted and set to a volume representative of normal room conversation Use the contact microphone connected to the input of the computer s soundcard to make a reference measurement of acoustic leakage from the room The ASA 2000 software is used to take the reference and comparison measurements Turn on the ANG 2200 and adjust the level and frequency controls until the noise measurement is a predetermined amount greater than the leakage reference measurement 20dB is the recommended amount to ensure effective masking See Appendix A for more information 21 SPECIFICATIONS RE ACOUSTIC NOISE GENERATOR ANG 2200 Size 1 gx4V i6x 7in 4 1 x 10 6 x 17 8 cm Weight 2 Ibs 907 g Output Max 12 V p p 6 ohms Min Load 2 ohms Frequency 125 Hz 5 6 kHz Power ISVDC
12. ation of Transducers TRN on Walls and Glass 24 APPENDIX A REI VOICE_BAND ENERGY FREQUENCY SPECTRUM ANG Spectrum Analyzer The above graphs using the ASA 2000 Audio Spectrum Analysis Software represent the frequency spectrum of the author s voice saying Testing 1 2 3 in a normal speaking voice Observe e Most of the energy exists at lower audio frequencies e There are a few obvious dominant frequencies in the lower frequency range e The energy in frequencies above 500Hz is not as well defined as the energy in the lower frequencies Note The top graph shows the time domain and indicates some very periodic activity But it is very hard to predict what portion of the speech is visible in the short 0 085 second sample window displayed 25 APPENDIX A REI Important noise masking characteristics e Most energy from an individual s voice occurs at the primary vocal frequency 124Hz in the previous graphic e This resonant energy is generally created by speaking vowel sounds such as a e 1 0 and u However while vowel sounds contain a large amount of the voice energy these resonant sounds do not provide a lot of the energy associated with the intelligibility of the spoken word e The sounds that affect intelligibility are more dominated by consonant sounds such as T K P D B etc and consonant sounds occur at higher frequencies Therefore the intelligibility of the spoken word is contained in the
13. ch as the CMA as previously described then select Line Input The input volume level should be set relatively low Close Line Control window and click Reference to turn on the audio spectrum analysis function and begin displaying input from the probe To ensure that the probe is working properly make a known noise by clapping whistling singing etc and visually check that the software is responding as expected Note The reference measurement can be re started at any time or the display can be paused by pressing the Reference or Pause button Click Config to review the Sampling Parameters and other configuration parameters Threshold indicates the desired level of masking The example above used a 10dB masking level The software uses this number to graphically indicate the areas of the frequency spectrum where the desired masking level is achieved There are several other parameters that can be adjusted using this menu These settings can be saved for future analysis 32 APPENDIX A REI 6 Click Recorder to make sample recordings of measured audio The default Windows audio recorder can be used to record WAV file examples of noise audio both before and after noise masking Reference vs Analysis Configuration Control an ae Configuration Sound Recorder 41 Sound Sound Recorder 9 1 sound Sound Recorder _ 5 xj File Edit Effects Help Position Length 0
14. chine screw threads for the transducer the other has coarse tapered threads to be used in solid materials such as wood e If the surface is a solid material such as plywood studs or wood beams the transducer can be mounted directly 1 Thread Screw Adapter into the transducer 2 Drill a 1 8 pilot hole in the wall 3 Screw the transducer clockwise into the pilot hole until it is flush to the surface DO NOT TIGHTEN EXCESSIVELY figure 3A e If the material is soft such as ceiling tile or drywall use a piece of plywood and adhesive to attach the transducer to the softer material 1 Drill a 1 8 pilot hole in the center of a 3 inch square for drywall to a 12 inch square for ceiling tile piece of 3 8 or 1 2 plywood 2 Attach plywood to surface with adhesive or epoxy glue 3 Thread the Screw Adapter in the transducer figure 3B 4 Screw the transducer clockwise into the pilot hole until it is flush to the plywood DO NOT TIGHTEN EXCESSIVELY Wf oa Co GB SOFT MATERIAL a Figure 3 TRANSDUCER INSTALLATION REI Hollow Wall Anchor Mounting For walls with fragile surfaces such as drywall plaster or thin paneling the transducer can be attached with a hollow wall anchor 1 Use the 10 24 thread size hollow wall anchor included with the transducer Drill a 7 16 hole and insert the anchor Thread the screw until the wall anchor is tight figure 4A 2 Remove the screw from the wall anchor figure 4B 3
15. d above ceiling tile in storage rooms crawlspaces or other open air spaces that are inside or adjacent to the target area and do not have transducers installed on the adjacent walls QUANTITY REQUIRED Determine the number of speakers needed by the guidelines below DROP TILED CEILING One Omni Masking Speaker centered on every Eighty One square feet CLOSETS CRAWL SPACES One Omni Masking Speaker suspended half the height of the room centered on every Eighty One square feet MOUNTING Omni Masking Speakers are usually hung by the cable The environment in which it is placed is the determining factor of its height positioning Drop Ceiling Hang the speaker one to two feet above the ceiling tile figure 7 and figure 8 Figure 8 SPEAKER INSTALLATION REI Closets Crawl Spaces Place the speaker centered in the space halfway between the floor and ceiling figure 9 ai eo cm faint Li LT cx Figure 9 12 SYSTEM SETUP REI INTRODUCTION The ANG 2200 protects against the problem of acoustic leakage by injecting masking noise onto the surface perimeter of a target area The diversity of the perimeter walls windows floors ceilings etc creates a challenge for controlling levels and the frequency spectrum of the masking noise REI addressed this challenge by providing two independent outputs with separate frequency control Two outputs allow the user to group similar perimeter surfaces together for
16. ecure centralized control or multiple Acoustic Noise Generators OMS 2000 Omni Masking Speaker The Omni directional Speaker is used with the ANG 3000 to project acoustic noise into drop ceiling air spaces closets crawl spaces and air ducts 37 APPENDIX B RE TRN 2000 ANG Transducer REI s TRN 2000 is a specially designed Transducer used to inject acoustic noise into walls finished ceilings windows plumbing and air ducts WMT 2000 Transducer Window Mount WMT 2000 Transducer Window Mount provides a safe method of attaching the TRN 2000 to a glass surface 38 APPENDIX B REI ASA 2000 ALL 2000 included Audio Spectrum Analyzer The purpose of the Audio Spectrum Analysis software is to provide the capability to measure the audio being absorbed by environmental structures and then analyze and adjust the noise masking levels for an effective countermeasure without being too loud and or disruptive Includes the ALL 2000 contact microphone PAR ELETE RI SE cies 1 Pn Teoh r t a pi ALG CHG T i J a7 may mT FE U5 a Hiwi 39 APPENDIX B REI CMA 100 Used with the ALA 100 Countermeasures Amplifier The Countermeasures Amplifier CMA 100 is a high gain audio amplifier It is used in conjunction with ALA 100 contact microphone to identify audio leakage threats and verify proper noise masking MES o a r p j F I F LJ H 40
17. he protected environment This instruction manual covers the installation wiring and testing of the ANG 2200 INTRODUCTION REI PRODUCT FRONT Ar a a na 9 On Indicator Power Switch Level Indicator Output 1 Last Red Display Indicates Voltage Clipping Level Control Output 1 Low Frequency Control Output 1 High Frequency Control Output 1 Current Overload Indicator Output 1 Level Indicator Output 2 Last Red Display Indicates Voltage Clipping Level Control Output 2 10 Low Frequency Control Output 2 11 High Frequency Control Output 2 12 Current Overload Indicator Output 2 INTRODUCTION REI PRODUCT BACK RESEARCH ELECTRONICS INTL ALGOOO TN 28506 MADE IN THE USA OUTPUT2 OUTPUTA POWER IN m ka 15 VOC 1A Figure 2 Positive Terminal Output 2 Negative Terminal Output 2 Negative Terminal Output 1 Positive Terminal Output 1 DC Power In 15VDC 1A Ce ST ACOUSTIC EAVESDROPPING Sound vibrates surfaces such as walls glass and doors A contact microphone can pickup these vibrations and transmit the information along wires or modulate it onto radio waves to be received by an unwanted listener outside the room Laser and microwave beams reflected off these surfaces are modulated with the information and pose the same threat Vibrations caused from talking in a room can be transferred along air ducts plumbing walls ceilings etc T
18. hese vibrations can be intercepted and monitored by persons several floors or rooms away This means that even though a room has been cleared of eavesdropping devices the voice information from within that room may still be vulnerable The ANG 2200 system sets up a perimeter of masking noise around a room that creates a sound barrier to disrupt voice leakage The TRN 2000 transducers are designed to inject masking noise onto the room surfaces while the OMS 2000 speakers are used to provide protection in open air spaces such as in closets above ceiling tile and in crawl spaces This method provides a much greater masking noise envelope while producing less obtrusive noise in a room than a loudspeaker INTRODUCTION REI TRULY RANDOM NOISE The ANG 2200 contains two separate random noise generators There are several products in a host of markets that use noise generators but most of these use pseudo random noise Pseudo random noise is generated by a mathematical formula or a precalculated list of values and is in most cases predictable This predictability allows a sophisticated eavesdropper to correlate on this predicted noise and extract the room s information True random noise is naturally generated and completely unpredictable and eliminates this threat The ANG 2200 uses true random noise VOICE MASKING The human voice produces many frequencies when producing speech The frequencies and their strengths are dependent on the indiv
19. idual and the sound he or she is making The spoken word typically produces frequencies in the range of 100Hz to 6000Hz Intelligible speech resides in the range of 300Hz to 3000Hz This means that though the voice has lower and higher frequencies the ability to understand the differences in sounds in order to create speech consists of a smaller frequency range The ANG 2200 shapes its noise spectrum to allow for more energy within the intelligible frequency band This shape allows for greater efficiency better protection and a lower obtrusive noise level OPERATION The ANG 2200 uses a combination of transducers and speakers placed strategically throughout a target area to create a blanket of masking noise that covers private conversations from eavesdropping Each transducer utilizes adapters for mounting to a variety of surfaces such as walls windows ductwork plumbing etc When transducers are mounted to surfaces the surface s material can change the shape of the ANG 2200 s frequency spectrum altering the effectiveness of the noise The LF and HF slope controls are used to equalize the noise back to the correct shape that is required to mask intelligible speech The two separate outputs allow the user to tailor the noise for separate surface materials allowing greater flexibility and increased protection INTRODUCTION REI COUNTERSURVEILLANCE Attn Devices which are planted in close proximity to the target speaker s voice
20. level of this example was set to a 20dB masking level This 20dB masking level was accomplished using the output s slope controls on the ANG 2200 34 APPENDIX A RE ned ANG Spectrum Analyzer 5 l x tone Contig Detauts Audio Sample Window 0 256 Integration Time 4 096 sec A Ok z 4DkHz 20kHz 3 0 kHz 4 0 kHz Bandi Band Bands Copyright yright 2003 Research Electronics International All rights reserved Reference dB B69 704 WS Magnitudes are based arn the levels reported by the sound recording device Due to effects caused by automatic gain control adjustable yolLme controls Analysis dB 987 93 0 1049 internal computer noise and other factors these numbers should only be used Difference 448 399007 AE A ENeral reference fee ANG Spectrum Analyzer Detauits Audio Sample Window 0 258 _ Integration Time 4 098 sec Band Frequencies 100 500 500 1500 1500 4000 Hz 120 7 100 j dB 60 40 OkHz 4 OkHz 2 0 kHz 3 0 kHz 4 0 kHz Bandi Band Band Copyright 2003 Research Electronics International AI rights reserved Reference dB B69 704 75 Magnitudes amp are based an the levels reported by the sound recording device EA T a Due to effects caused by automatic gain control adjustable volume controls AnalysisdB 41419 953 995 internal computer noise and other factors these numbers should only be used Difference 350 23 219 as a general
21. m of a typical office setting The target room is protected from adjacent offices inner building walls restroom janitorial walls outside windows and drop ceilings Restroom y eso Janitorial Closet qwinpows B TRN 2000 Provides perimeter protection for walls and windows OMS 2000 Provides protection from ceiling devices mounted in drop ceilings Output 1 Output 2 Figure 14 Notice e The wall surfaces are all on the same output This makes output control setting simpler e The windows and ceiling have been combined on one output to avoid using another ANG 2200 When combining different surfaces on the same output walls should be kept separate from windows and ceilings SYSTEM SETUP REI WIRING Attn Do not turn on the ANG 2200 until you have completed wiring the transducers as recommended in this manual Route the wiring so that it cannot be pinched cut tripped over or damaged in any way Connect the wires to the transducer using the disconnect terminals furnished Crimp or solder the wire to the disconnect terminals For lengths of less than 60 feet use 18 gauge zip cord wire Use 14 16 gauge heavy duty speaker cable sold at audio stores for longer runs that have a total load impedance of less than 4 ohms Use the conductor that is silver or has markings on the insulator as the negative wire Attn Each generator output is designed to be separate and isolated Do not cross output wiri
22. mational A righi reserved Level T ry ae EJI p Ti r I wi Lal rey bry bia dn h Araksi de a ma er hc n a el Baii as i pth f Ba T al Main Display Screen Top graph Time domain graph basically an oscilloscope view of the audio Displays the most recently sampled time window Bottom graph The frequency spectrum generated by integrating basically averaging from multiple sampled windows of time Middle right side bargraph labeled Integrating Indicates when the required number of windows has been sampled to produce the integrated spectrum display Band ranges The software breaks the spectrum into 3 frequency bands These bands are somewhat arbitrary but are provided to show a basic average level of masking over a desired frequency range 30 APPENDIX A REI Note that even after the integration is complete the software continuously measures and integrates new sampled time windows The total integration time is also indicated in the menu The sampling and integration parameters can be adjusted as described later in this document During the Reference Measure integration time STEP 1 the software automatically normalizes the input data from the Acoustic Leakage Probe REI s contact microphone This normalization is performed mainly for graphing purposes Note on magnitudes dB levels Magnitudes shown in the display are not accurate in an absolute sense They are based on the data reported b
23. may not be masked by the ANG 2200 because it is designed to protect the perimeter of the target area A sweep and physical search are still recommended on a regular basis Countersurveillance is a continual challenge for security The security individual must constantly be on guard for new techniques and technologies Only through routine education and state of the art tools can security feel confident about the job that they perform Research Electronics believes and promotes this idea by hosting regular hands on courses at their Center for Technical Security and offering new cutting edge products For more information on REI s technical security countermeasure equipment see REI s website at http www research electronics com For more information concerning audio noise masking please see Appendix A Audio Noise Masking Countermeasures and Voice Spectrum Analysis included in the back of the manual TRANSDUCER INSTALLATION REI INTRODUCTION The ideal transducer installation would be accomplished during construction or remodeling where sensitive points in the structure can be protected with transducers built into the building s structure If this 1s not possible the transducers can be placed directly onto wall surfaces If visual appearance is a problem the transducers should be disguised or covered accordingly QUANTITY REQUIRED Determine the quantity of TRN 2000 transducers needed using the guidelines below WALLS
24. ng or allow any wiring to be connected to the building s metal or earth ground TUNING AND TESTING REI INTRODUCTION Tuning the system to the particular room after installing is an important step in securing the perimeter without generating an excess amount of audible masking noise Two methods can be utilized when tuning and verifying the system Method 1 Low Tech uses the hearing abilities of the user to secure the system setup Method 2 High Tech relies on software to interpret the noise and set the systems levels REI provides the equipment that can be used for both methods The ALP 2000 acoustic leakage probe the CMA 100 Countermeasures Amp and the ASA 2000 are all products used in the methods Method 2 High Tech assures the greatest protection When calibrating the system the user should understand the frequency content of the noise and the idea that different surfaces and structural elements affect the content See the Introduction section and the Appendix A of the manual Adjusting the Low and High frequency controls of the ANG 2200 allow the masking noise to be tailored for a particular surface There are general rule of thumb settings for the frequency controls and level that are useful as starting points for calibrating the system TUNING AND TESTING RE RULE OF THUMB SETTINGS Rule of Thumb Settings are based upon lab tests by Research Electronics Intl Because each specific site is unique REI cannot guarantee
25. plication at hand The REI ANG 2200 system provides this capability 28 APPENDIX A REI Because Pink Noise sounds richer to the human ears it is often used for noise masking applications in large office soaces where the goal is not necessarily to block the intelligibility of audio in an adjacent office but to create a pleasant noise level such that the adjacent office conversations and general offices noises keyboards printers foot steps water fountain typewriters coffeepot etc will not disturb the train of thought for everyone around In this type of application the goal is generally to provide a wide area diffuse sound field of masking noise APPLYING NOISE TO PERIMETER STRUCTURE As previously described Noise Masking for Eavesdropping Countermeasures requires that the noise be injected into the surrounding structure This can be done using transducers and speakers One major problem is that regardless of the frequency response of the electronically generated masking noise whether it s White or Pink the structure in which the noise 1s injected will also have a major impact on the noise frequency spectrum e Glass is a very stiff brittle material which responds well to higher frequency signals e Wood paneling is very flexible and will respond much better to lower frequency noise Therefore regardless of the noise spectrum that is electronically generated the noise spectrum that exists in the perimeter struct
26. se this section will address the difference White Noise has equal energy per frequency the energy frequency spectrum is basically flat Since human hearing responds in a logarithmic manner see the previous graph White Noise sounds to a human as if the high frequencies are loudest the audio sounds Brighter Pink Noise has equal energy per frequency octave The noise energy level decreases as frequency increases or for example there is the same amount of energy in each of the following frequency bands 100 to 200 Hz 200 to 400 Hz 400 to 800 Hz 800 to 1600 Hz Pink Noise has a frequency roll off similar to the human hearing capability and therefore sounds less bright and richer at the lower frequencies when compared to White Noise The question What is the best type of noise to use as an eavesdropping countermeasure The focus Defeat intelligibility of the spoken word in the surrounding perimeter rather than simply create a pleasant sound environment This goal generally takes more power and sound energy in the perimeter of the protected space Therefore a White Noise system is more generally appropriate because energy 1s evenly distributed and the higher frequency components and thus the intelligibility of the spoken word are more greatly impacted by the energy level in a white noise system A more appropriate approach is a Noise Masking system in which the noise frequency spectrum is customized for the ap
27. ure will be influenced by the physical nature of the structure For this reason REI has developed a noise masking system that is adaptable to various types of structures and a testing procedure and software to adjust the proper noise level and frequency spectrum to the specific application 29 APPENDIX A RE REI AUDIO SPECTRUM ANALYSIS SOFTWARE Purpose To measure the audio being absorbed by environmental structures and then analyze and adjust noise masking levels for an effective countermeasure STEP 1 Make a reference measurement to get a baseline of the amount of noise being absorbed into the structure STEP 2 Inject masking noise into the structure and use the software to measure and adjust the level for effective masking In this manner the ASA 2000 software provides a useful tool for customizing the ANG 2200 settings for different environments and different building materials Time Sample l Hanos Spt ai or _ E BEE ispu Window and Total lal Reierenca nemere Pamo m X g Integration Time i Line Corteo all Peecurder l Config JE Petia ma rN ao Se Be VOS5tz cae eN a z Time Domain Buttons mn ess Integration Pend Frequencies 100 00 000 1500 1500 400082 nibegrating lt Com plet ion Spectrum view Band Range Analysis Level Frequency vA oo am with Noise Graphic and Si Ave Levels q OE 1o 2m mt aott Reference nii Bend Bend 3 Copyright 2000 Reseach Glectronics ine
28. urfaces Use 1 2 Power transducers for large panes of glass and 1 3 Power transducers for small panes of glass It 1s possible to combine powers but the output volume of each transducer should be verified Full Power lie Power 1 3 Power MEE 182 e e i D4 lOO 4 Tranducer a z MI axit Pey eO eee 12 Taai 2570 oe an ed ris t t t Note LS Power can handle up to 27 transducers This is not recommended due to the lack of individual frequency control over such a large area Figure 12 SYSTEM SETUP REI OMNI MASKING SPEAKERS Figure 13 shows the three power combinations for the OMS 2000 speakers Use Full Power for large closets and large crawl spaces Use 1 2 Power for small crawl spaces closets and ceilings with a large distance between the tile and ceiling Use 1 3 Power for very small areas and ceilings with very little space between the tile and the top of the ceiling Similarly to the transducers powers can be combined but the output volume should be verified Full Power LA Power 1 3 Power l2 opeakers l Al minam 24 Speakers asain 36 opeakers IT accu Note Speakers can be added until 2 ohms is reached Control of the level and frequency may become difficult due to location of the speakers The user should use his or her own judgement when connecting speakers Figure 13 SYSTEM SETUP REI EXAMPLE Figure 14 is an example diagra
29. y the sound recording device in the computer the sound card Due to the affects of differing sound cards automatic gain control settings volume control settings internal computer noise and other factors the ASA 2000 software should not be used for making accurate sound level measurements however the software provides an excellent tool for measuring relative sound levels associated with measuring audio leakage in a structure with and without injected noise masking 31 APPENDIX A REI Making a Reference Measurement I 2 Plug the Acoustic Leakage Probe ALL 900 into the proper 3 5mm jack on the computer Place the Probe on the desired surface to be tested Use either the suction cups or push pins provided with the Probe If the microphone is held in place by hand the measure has error and noise introduced due to the movement of the hand Note the ASA 2000 software can also accept audio from an external source such as the REI Counter Measures Amplifier CMA In this case the CMA contact microphone is plugged into the CMA and the CMA line out is plugged into the computer Line Input This configuration provides slightly better performance because of the quality in the CMA amplifier circuits and the CMA voice band filter Start the ASA 2000 software and click on Line Control If the probe is plugged directly into the computer select Microphone check Select If an alternate audio source is used su
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