Master Antenna Television System

Transcript

Master Antenna Television System Everything you need to know about installing a Master Antenna Television System with Clipsal accessories. PAGE C ON T E N T S 4 T HE B ASICS OF M AT V 7 S YS T EM L OSSES 8 IN T ERF ERENCE A ND T ROUBLE SHOO T ING 12 M AT V CABLE 15 M AT V A MPLIF IERS 17 DROP TAPS 19 CONNEC T ION SOCKE T S, PLUGS A ND T ERMIN AT ORS 24 SPLI T T ERS 26 T OOL S 27 F LUSH MOUN T ING CONNEC T ION ACCESSORIES 28 2000 SERIES 30 C2000 SERIES P2000 SERIES 31 heritage H A NG-SELL BLIS T ER PACKS 32 AUDIO / V IDEO ACCESSORIES 33 A N T ENN A MECH A NISMS 35 CONNEC T ION SOCKE T S A ND PLUGS 37 INDE X The Basics of MATV MATV stands for Master Antenna Television. The decibel indicates how many times greater or MATV sys tems allow multiple receivers (TV & FM) smaller a quantity is from a pre-established reference to receive signals from a single (Master) antenna, as level. The relationship between dB levels is logarithmic, opposed to individual antennas for each receiver. not linear. Therefore 40 dB is not twice as much as 20 dB, for example: MATV systems are separated into two portions, the ‘Head End’ and the ‘Distribution System’. When • 10 dB = 3.2 x reference level these two portions are planned and engineered • 20 dB = 10 x reference level using the • 30 db = 32 x reference level appropriate installation tech niques, signals will • 40 dB = 100 x reference level be distributed without loss of signal qual i ty. • 50 dB = 316 x reference level Any signal passing through system components, In the MATV industry, the zero reference level is 1,000 including the cable, will be attenuated (i.e., have microvolts measured across 75 Ohms of impedance. its level diminished). The level of this attenuation is The reference level determines that a minimum important, as it will be a factor in signal quality. signal of 1,000 microvolts is required to produce an suit a ble MATV equipment and acceptable picture. Signal quality within the system is related to signal level, system noise and headroom. The system needs The dB figure is represented as dBmV (a reference to 1 to maintain a low noise level and a high signal level. millivolt), or dBµV (a reference to 1 microvolt). However, the signal must not be too high, as this can MATV amplifier gains, cable losses, insertion losses overdrive the equipment. and isolation values are all expressed in dB. To In order to simplify MATV design, the relationship determine an amplifier output and any system losses, between decibels are added and subtracted. noise and signal levels is measured (in Decibels). The minimum signal for a good quality, noise free picture is typically stated as 0dBmV although most DECIBEL S televisions will work with signals as small as -6dBmV. The signal level received on a television antenna is Working to the 0dBmV lev el will provide a tolerance measured in microvolts. Calculations in microvolts are to slight signal variations. The signal level fed into a difficult, therefore MATV calculations are carried television should be kept below 20dBmV. Equipment is out in decibels. critical to maintain the maximum bandwidth. Decibels are added and subtracted, as opposed to being multiplied and divided. The decibel is 1/10 of a bel and is derived from a formula originally used by telephone engineers. 4 MASTER ANTENNA TELEVISION MODUL AT ION The quality and strength of any signal received is de ter mined by the following:- For audio and video signals to be transmitted using only a portion of the available bandwidth, they • Proximity to the transmission tower. • Power of the transmitter. • Quality of the transmission. • Line of sight to the transmission tower. If TVs or VCRs are tuned to a particular channel, it • Weather conditions. is not tuned into a single frequency, but a 7MHz • Interference from power lines. band from which the audio and video information • Directional characteristics and orientation of the an tenna. • Level of gain of the antenna. are modulated onto carrier signals within a fixed bandwidth. In Australia, the standard bandwidth is 7MHz, this is known as a channel. is retrieved. For analogue transmission in Australia the vision carrier is 1.25MHz above the lower frequency for a A N T ENN A SEL EC T ION given channel’s bandwidth, with the primary audio approximately 5.5MHz above that. The secondary The antenna installation should provide at least 60 dB audio is approximately 242KHz above the primary audio. or 0dBmV of picture signal per channel at the amplifier input. T HE M AT V HE A D END In strong signal areas this will be relatively easy The Head End of a MATV system usually consists of an to obtain. In weak signal areas a larger antenna antenna which receives broadcast signals, processing with a high gain will usu ally be necessary. It may equipment to filter the signals and a distribution also be necessary to “stack” two or more antennas. amplifier to amplify the signals to compensate for Stacking two antennas will provide an additional 3 dB distribution losses. Antennas, am plifi ers, taps, filters of gain above the gain of a single antenna. Although and attenuators are used in this portion of the system. a pre-amplifier may be used, stacking before preamplification is preferable, as it delivers a cleaner signal to the system. T HE M AT V A N T ENN A The quality of TV reception can be no better than Antenna directivity is important. Directivity is a the quality of the signal from the antenna. It is measure of how well an antenna will reject signals from therefore vital to se lect the correct antenna for the any direction other than the front. The front-to-back intended location. ratio is one way of measuring an antenna’s directivity. This is the ratio of the amount of signal received by the Antenna manufacturers produce geographic maps front of the antenna to the amount of signal received detailing preferred antenna types based on the by the rear. A highly directional antenna will generally geographic location. In addition, professional antenna have a high front-to-back ratio. installers carry test equipment to optimise antenna placement and orientation. 5 SIGN A L SUR V E Y Each outlet has a defined amount of signal level required, and there is a recommendation for maximum Determining signal levels is one of the most important steps in Head-End design and a signal survey before installing the system will avoid many cable runs. Splitters and taps provide the same signal quality to each outlet, as long as design recommendations are adhered to. potential problems. If there is a poor signal received from the antenna, An antenna, several sections of mast, a field strength meter and a portable colour TV is the equipment required for a signal survey. The field strength meter measures the amount of signal received on each this same poor signal will be output to each of the TV outlets.To guarantee a good signal at each of the TV outlets, a good quality signal needs to be re ceived at the antenna. channel. Carefully selected antennas can also do much to overcome certain types of inter ference. The portable TV allows the quality of the signal re ceived on each channel to be determined. AT T ENU AT ORS As there are many signals received by an antenna, there may be a wide variation in signal levels. In order to M A S T HE A D A MP L IF IERS ensure the same picture quality on all channels, the signal levels may require equalisation to prevent In weak signal areas, it is often necessary to amplify the signal before the distribution amplifier. This will ensure a signal of sufficient strength and acceptable quality. This is achieved using a the stronger signals from overriding the weaker ones. Equalisation is achieved by using attenuators, which reduce the incoming stronger signals by a specified amount. Masterhead Amplifier. Attenuators can be either fixed or variable. They are It is important to choose a Masterhead Amplifier with a low noise figure. The noise figure of the Masterhead Amplifier establishes the noise figure of the entire either designed for one specific attenuation level, or they are switchable so that the signals can be reduced in increments to the required level. system, therefore the amplifier should always increase the signal more than it increases the noise. Attenuators reduce all signals that pass through by the same amount. Therefore, frequencies that need M AT V DIS T R IBU T ION reducing need to be separated from the rest of the signals so that only the strong er signals are reduced. A well-designed distribution system is necessary to guarantee an adequate signal at every receiver connected to the sys tem. The distribution of MATV is the role of a combination of splitters and taps. Splitters and taps provide a pre deter mined signal level and maintain the correct impedance to each of the outputs. Calculation of losses as so ciated with splitters, drop taps and cable are required. 6 MASTER ANTENNA TELEVISION A MP L IF IERS the main line. The signal sent to each branch of the system will be equal to the signal sent into the Amplifiers increase the strength of signals received to a level greater than the losses in the distribution system. The amplifier gain determines the level of signal increase, which should be high enough splitter minus the splitter loss. That is, an input of 70 dBuV into a 2-way splitter will deliver a signal of 70 dBuV minus 3.5 dBuV splitter losses, or 66.5 dBuV to each branch of the Sys tem. to provide an acceptable signal level to all tel evisions in the system. INSER T ION L OSS Although an amplifier’s gain is important, the output capability is just as important. The amplifier’s specifications should be checked to ensure that the output level is sufficient to feed the system and that the strength of the input signal plus the gain of the amplifi er doesn’t exceed the amplifiers rated out put capability. Exceeding the output capability will result in overloading, cross modulation distortion, and overall signal deterio ration. All tap-off devices inserted into the distribution system create signal loss. This type of loss is called insertion loss, (some times called feed-through loss). On the line, the insertion loss of each tap-off is subtracted from the signal carried by that line. When estimating total system losses, the insertion loss of each unit is added together to find the total inser tion loss for that system. For example, if there are 10 tap-offs on the line, and each tap-off has an insertion loss of 0.5 dB, the total insertion loss is 5 dB. System Losses For initial calculation, the tap-off values and the insertion losses are estimated as the output of C A BL E L OSS A certain amount of signal will be lost as it travels the amplifier and will influence the final selection tap-off values. through coaxial cable. This loss depends on the type of cable used and the frequency of the signal being carried. ISOL AT ION L OSS Each tap-off attenuates the signal by a specified Losses are greater at higher frequencies, the greatest number of dB to prevent one set from interfering with loss occurring at channel 69 in UHF/VHF systems. The another. For example, if there is a 80 dBuV signal in cable loss should always be calculated at the highest the line, and a 20 dB drop tap is inserted in the line, frequency re ceived or the highest frequency to be the signal available at the tap-off would be 60 dBuV. received in the future. The 20dB loss is called ‘Thru’ Loss. In computing the total distribution system losses, calculate the Thru Loss of the last tap-off only. Since the system design SP L I T T ER L OSS requires a minimum of 60 dBuV to each set, the lowest When a two-way splitter is inserted in-line, the signal tap value should be used. For most MATV tap-offs this in each leg will be approximately 3.5 dBuV less than value is either 10 or 12dB. that of the main line. If a 4-way splitter is inserted inline, the signal in each leg is 6.5 dBuV less than that in 7 Interference and Trouble Shooting A D J A CEN T CH A NNEL IN T ER F ER ENCE CROSS MODUL AT ION IN T ER F ER ENCE Cross modulation interference occurs in Broadband preamplifiers and distribution amplifiers when one or more signals (TV Channels) exceed the amplifiers rated output capability. This causes two or more signals (TV channels) to beat together resulting in the picture information of one channel appearing superimposed upon another. This inter ference usually manifests itself as a windshield wiper effect or as a negative image. Adjacent channel interference is caused by a strong signal from one channel overriding a weaker signal The windshield wiper effect is seen as the vertical on an adjacent channel, producing a “herringbone” or horizontal framing bars of the interfering channel effect. An adjacent channel is one, which is next to appearing The another channel. For ex ample, Channels 1 and 2, 7 negative image appears as a superimposed image and 8, 10 and 11 are adjacent channels. Channels 2 in the background of the picture on the channel and 3 are not adjacent because there is a 15 MHz band being viewed. between them. In addition, channels 5 and 6 are not on the channel being viewed. adja cent because there is channel 5A between them. Highly directional antennas and the use of filters and taps to attenuate and control the This interference can be eliminated by using a higher offending signals can usually eliminate this type gain antenna to increase the weaker signals and by of interference. using attenuators to reduce the stronger signals. It is always the strongest signal received that causes the interference and it does not normally show up on the inter fering channel. The interfering signal may also be an FM signal or combination of FM and TV signals. 8 MASTER ANTENNA TELEVISION GHOS T ING A leading ghost sometimes occurs in strong signal areas when signal is picked up directly and displayed microseconds before the image is picked up by the antenna. Since 300-Ohm twin lead is unshielded and can act like an antenna, it should be removed and replaced with 75-Ohm coaxial cable. A balun should be placed as close as possible to the antenna ter minals and the co ax ial cable connected to the TV set with a matching transformer. Overpowering the unwanted signal can also eliminate this type of ghosting. Poor installation techniques can cause ghosting. If the distribution line installations are improp erly There are three common causes of ghosting:- terminated, the signal can bounce up and down the line, causing multiple imag es. Proper use of • Pickup of reflected signals by the antenna. • Direct pickup of a signal by the TV or TV lead. • Poor installation techniques. terminators can eliminate this problem at the time of installation. Poor crimping of F fittings can cause an impedance Not all signals reach an antenna directly. They can be reflected by buildings, mountains, or bodies of water. These reflected signals arrive at the antenna microseconds after the direct signal. This causes a mismatch, and can result in reflected signals in the line. Using a good crimping tool and making sure that all fit tings and splices are correctly executed will help ensure trouble free op eration of a system. second, fainter image to appear on the TV screen, just to the right of the main image. This is called a trailing ghost. A trailing ghost can usually be eliminated by using a highly directional antenna or by stack ing antennas. Changing the orientation of the antenna slightly may also eliminate the reception of the reflected signal. A second image appearing to the left of the main image is called a leading ghost. This is the result of the direct pickup of sig nal by the TV lead (when using 300-Ohm twin lead or a poor quality 700-Ohm lead), by the TV tuner itself or by the down lead from the antenna. ‘Ingress’ is the problem, the use of a Quad Shielded lead eliminates this problem. 9 POWER LINE INTERFERENCE C A BL E Power line interference is caused by radiation from Video cabling should be cabled with RG-6, quad a high voltage power line close to the antenna. To shield, 75-Ohm coaxial cable. Coaxial cable is a minimise this interference, the antenna should be concentric transmission line. It consists of a central located as far away from the power line as possible. conductor, a dielectric medium (such as polyethylene) A balun should be used as close as possible to which fixes the spacing between the central conduc tor the antenna terminals to prevent direct pickup and an outer shield (such as copper braid or aluminum of radiation. foil) and a weatherproof outer jacket (usually PVC). Worn or cracked insulators on power lines can also All Clipsal coaxial cable connec tions use standard cause this interference. If the interference shows up F-Type connectors for faster, easi er installation. inter mit tently (especially during wet weather), it may be due to cracked insulators on the power lines. Losses in coaxial cable are specified as attenuation per metre of cable. CO-CHANNEL INTERFERENCE Co-channel interference is the result of two stations in dif ferent locations operating on the same channel. It appears on a TV as two different pictures, as though one were placed on top of the other. The effect can be minimised by using a highly directional antenna, or, if necessary, by stacking antennas. 10 MASTER ANTENNA TELEVISION CATALOGUE 11 M AT V C A B L E RG 59 Dual Shield MATV Cable CONS T R UC T ION .813mm/20AWG solid bare copper covered steel conductor with gas injected foam polyethylene insulation. 60% aluminium braid, foil tape, and Black PVC jacket. Available in a 100mm reel and 305mm reel in a box. Sweep tested to 3GHz, SRL 25 dB minimum. Rating: 80°C. Catalogue Conductor Size Number (mm) (AWG) Cond. Type Shield Type Reel Nom. Length (m) O.D (m) Insl. & Vel. of Core O. D(mm) Prop (%) 2B59D3B 20 60% Aluminium Braids 305 3.66 .813 Solid BCCS Catalogue Number Description Pack Size 2B59D1 RG-59 COAX DUAL SHIELD 100m 2B59D3B RG-59 COAX DUAL SHIELD BOX 305m 6.02 83 RG6 Dual Shield MATV Cable CONS T R UC T ION 1.02mm/18 AWG solid bare copper covered steel conductor with gas injected foam polyethylene insulation. 60% aluminium braid, foil tape, and a black PVC jacket. Available in a 100m reel and 305m reel in a box. Sweep tested to 3GHz, SRL 25 dB minimum. Rating: 80°C. 12 Catalogue Conductor (AWG) Cond. Number Size (mm) Type Shield Type Reel Nom. Length (m) O.D (m) Insl. & Vel. of Core O. D (mm) Prop (%) 2B6D3B 60% Aluminium Braids 305 4.57 1.02 18 Solid Catalogue Number Description Pack Size 2B6D1 RG-6 COAX DUAL SHIELD 100m 2B6D3B RG-6 COAX DUAL SHIELD BOX 305m MASTER ANTENNA TELEVISION 6.86 85 M AT V C A B L E RG6 Tri Shield MATV Cable CONS T R UC T ION 1.02mm/18 AWG solid bare copper covered steel conductor with gas injected foam polyethylene insulation, DuoBond® II shield plus 60% aluminium braid, Black PVC Jacket,100% Sweep Tested: 5MHz-1GHz, SRL 20 dB minimum. Rating: 80°C. Catalogue Conductor Size Number (mm) (AWG) Cond. Type Shield Type 2B6T3B 18 60% Aluminium 305 Braids 1.02 Solid BCCS Reel Nom. Length (m) O.D (m) 6.86 Insl. & Vel. of Prop Core O. D (mm) (%) 4.57 Catalogue Number Description Pack Size Foxtel Approval No. 2B6T3B 305m RG-6 COAX TRI SHIELD BOX 85 F10297 RG6 Quad Shield MATV Cable CONS T R UC T ION 1.02mm/18 AWG solid bare copper covered steel conductor with gas injected foam polyethylene insulation. Foil tape, 60% aluminium braid, foil tape, and a black PVC jacket. Available in a 305m reel in a box. Sweep tested to 3GHz, SRL 20 dB minimum. Rating: 80°C. Catalogue Conductor Size Number (mm) (AWG) Cond. Type Shield Type Reel Nom. Length (m) O.D (m) Insl. & Core O. D (mm) Vel. of Prop (%) 2B6T3B 18 60% & 40% Aluminium Braids 305 4.57 85 1.02 Solid BCCS 7.57 Catalogue Number Description Pack Size Foxtel Approval No. Austar Approval No. 2B6Q1 RG-6 COAX QUAD SHIELD 100m F10298 A04752 2B6Q3 RG-6 COAX QUAD SHIELD 305m F10298 A04750 2B6Q3B RG-6 COAX QUAD SHIELD BOX 305m F10298 A04751 2B6Q3F RG-6 COAX QUAD SHIELD FLOODED 305m F10299 A04749 13 M AT V C A B L E RG11 Quad Shield MATV Cable CONS T R UC T ION 1.63mm/14 AWG solid bare copper covered steel conductor with gas injected foam polyethylene insulation. Foil tape, 60% aluminium braid, foil tape, 40% aluminium braid and a black PVC jacket. Available in 305m reels. Sweep tested to 3GHz, SRL 25 dB minimum. Rating: 80°C. 14 Catalogue Conductor Size Number (mm) (AWG) Cond. Type Shield Type Reel Length (m) Nom. O.D Insl. & Core (m) O. D (mm) Vel. of Prop (%) 2B11Q3 14 60% & 40% Aluminium Braids 305 11.34 83 1.63 Solid BCCS 7.1 Catalogue Number Description Pack Size Foxtel Austar Approval No. Approval No. 2B11Q3 RG-11 COAX QUAD SHIELD 305m F10300 A04748 2B11Q3F RG-11 COAX QUAD SHIELD FLOODED 305m F10301 A04747 MASTER ANTENNA TELEVISION M AT V A MP L IF IE R S 3105MH24W 24dB Wide-band VHF/UHF Amplifier F E AT UR E S A ND B E NE F I T S Screw & Saddle masthead designed to amplify a single VHF & UHF combined antenna. Packed with a power supply. Frequency Maximum Range Gain(dB) Inputs Noise Figure Gain Figure Current (mA) FM Trap Option Pager Option Output Figure (dB) VHF 44-470 18 UHF 470-860 24 fixed 1 or comb <3 Tilt 14-10 80 NO NO 105 <3 NO 80 N/A N/A 105 3105MH34W 34dB Wide-band VHF/UHF Amplifier F E AT UR E S A ND B E NE F I T S Screw & Saddle masthead designed to amplify separate VHF & UHF antennas or a combined VHF/UHF antenna. Packed with a power supply. Frequency Range Maximum Gain(dB) Inputs Noise Figure Gain Figure Current (mA) FM Trap Option Pager Option Output Figure (dB) VHF 44-230 20-27 <3 Tilt 12-10 90 -24 -24 108 UHF 520-860 34 1,2 or comb <2.5 10 90 N/A N/A 108 3105MH38W 38dB Wide-band VHF/UHF Amplifier F E AT UR E S A ND B E NE F I T S Screw and saddle masthead designed to amplify separate VHF & UHF antennas or a combined VHF/UHF antenna. Packed with a power supply. Frequency Maximum Range Gain (dB) Inputs Noise Figure Gain Control Current (mA) FM Trap Option Pager Option Output Figure (dB) VHF 44-230 20-28 <3 10 100 33 25 (Freq.Adj) 110 UHF 470-860 24 fixed 1,2 or comb <2.5 10 100 N/A N/A 110 15 M AT V A MP L IF IE R S 3105MH34U 34dB UHF BAND AMPLIFIER F E AT UR E S A ND B E NE F I T S Screw and saddle masthead designed to amplify a UHF antenna and diplex a separate VHF antenna or amplify the UHF component of a combined antenna. Packed with a power supply. Frequency Maximum Range Gain(dB) Inputs Noise Figure Gain Control Current (mA) FM Trap Option Pager Option Output Figure (dB) VHF 44-230 -1 N/A N/A 85 NO NO 108 UHF 520-860 34 1,2 or comb <2.5 10 85 N/A N/A 108 Gain Control Mains 3105SA2/10 2-Way Splitter Amplifier F E AT UR E S A ND B E NE F I T S A 2-way Splitter Amplifier designed for a separate VHF or UHF antenna or combined antenna at the input. Frequency Range Maximum Gain(dB) Inputs Noise Figure Output Figure (dB) VHF 44-470 12 1 <7 NO 230-240 VAC 100 UHF 470-860 12 1 <7 NO 230-240 VAC 100 3105DA30 30dB Distribution Amp with Gain & Equaliser F E AT UR E S A ND B E NE F I T S F-Type distribution amplifier designed for a separate VHF or UHF antenna or combined antenna at the input. Can be remotely powered to the output. Packed with power supply. 16 Frequency Range Maximum Gain (dB) VHF 44-470 30 1 UHF 44-470 30 1 MASTER ANTENNA TELEVISION Inputs Noise Figure Gain Control Current (mA) Equalisation (dB) Output Figure (dB) <7 10 170 15-0 112 <7 10 170 15-0 112 D R OP TA P S 3105T1/10 3105T1/12 FEATURES AND BENEFITS FEATURES AND BENEFITS Nickel-plated zinc die-cast housings High shielding with -120dB RFI Power-pass one port Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port 1-Way 10dB TAP Loss TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) 1-Way 12dB TAP 10 2.0 3.0 TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) Foxtel Approval Number: F10082-85/C Foxtel Approval Number: F10082-85/C 3105T1/15 3105T1/20 FEATURES AND BENEFITS FEATURES AND BENEFITS Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port 1-Way 15dB TAP TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) 1-Way 20dB TAP 16 1.3 2.2 TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) Foxtel Approval Number: F10082-85/C Foxtel Approval Number: F10082-85/C 3105T2/10 3105T2/12 FEATURES AND BENEFITS FEATURES AND BENEFITS Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port 2-Way 10dB TAP TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) Foxtel Approval Number: F10082-85/C 12 1.9 2.7 20 0.9 1.7 2-Way 12dB TAP 10 2.1 3.1 TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) 12 1.9 2.9 Foxtel Approval Number: F10082-85/C 17 D R OP TA P S 3105T2/15 3105T2/20 FEATURES AND BENEFITS FEATURES AND BENEFITS Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port 2-Way 20dB TAP 2-Way 15dB TAP TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) 16 1.5 2.3 Foxtel Approval Number: F10082-85/C Foxtel Approval Number: F10082-85/C 3105T4/10 3105T4/12 FEATURES AND BENEFITS FEATURES AND BENEFITS Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port 4-Way 10dB TAP TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) 10 6.5 9.0 TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) Foxtel Approval Number: F10082-85/C Foxtel Approval Number: F10082-85/C 3105T4/15 3105T4/20 FEATURES AND BENEFITS FEATURES AND BENEFITS Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass one port TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) Foxtel Approval Number: F10082-85/C MASTER ANTENNA TELEVISION 20 1.0 1.9 4-Way 12dB TAP 4-Way 15dB TAP 18 TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) 12 4.0 4.5 4-Way 20dB TAP 16 3.0 4.1 TAP LOSS (dB) THROUGH LOSS 5-950MHz (dB) THROUGH LOSS 950-2400MHz (dB) Foxtel Approval Number: F10082-85/C 20 1.8 1.9 C ONNE C T ION S O CK E T S , P L UG S A ND T E R MIN AT OR S 30TV75P RG59 TV Antenna Connection Accessory 75 Ohm Coaxial Cable Plug 30TV75CS RG59 TV Antenna Connection Accessory 75 Ohm TV Antenna Cord Line Connection Socket F E AT UR E S A ND B E NE F I T S Features internal clamping screw and Flexible Cord Grip. Screw secured cable signal carrying inner core ensures better connection and conductivity. Cord grip suits coaxial cables to a maximum diameter of 7.5mm. 30TV75C TV Antenna Connection Accessory 75 Ohm Coax RG59 Cable Plug Screw type F E AT UR E S A ND B E NE F I T S Features Internal Clamping screw and Flexible Cord Grip. Screw secured cable signal carrying inner core ensures better connection and conductivity. Cord Grip suits coaxial cables to a maximum diameter of 7.5mm. 30TV75C1 TV Antenna Connection Accessory 75 Ohm Coax RG6 Cable Plug No Crimping Tool Required F E AT UR E S A ND B E NE F I T S For solderless or screwed F type connections. 3105FTER TV Antenna Connection Accessory 75 Ohm Terminator for Loop Circuit Tap Socket F E AT UR E S A ND B E NE F I T S Terminator Device for unused sockets on Drop Taps, Directional Couplers and Splitters. Provides impedance matching on any unused output sockets. 19 C ONNE C T ION S O CK E T S , P L UG S A ND T E R MIN AT OR S 3105RG59F 3105RG6FT 3105RG59FT 3105FF-FF 3105RG6F 3105PM-FF RG59 F-Type Crimp Connector Packet of 10 For use with Crimp Tool 3105CT611 RG59 F-Type Twist On Connector Packet of 10 No Crimping Tool Required RG6 F-Type Connector Suits Dual/Tri/Quad Shield RG6 Cables Packet of 10 For Use with Crimp Tool 3105CT611 Foxtel Approval Number: F10179/C 20 MASTER ANTENNA TELEVISION RG6 F-Type Twist-On Connector No Crimping Tool Required F-Type Female to Female Coax Joiner Packet of 10 PAL Male to F-Type Female Adaptor Packet of 10 C ONNE C T ION S O CK E T S , P L UG S A ND T E R MIN AT OR S 3105PF-FF 3105BT2U 3105PF-FM 3105BT1U 3105FMF 3105MBT3U PAL Female to F-Type Female Adaptor Packet of 10 PAL Female to F-Type Male Adaptor Packet of 10 FM Filter (Indoor) Balun Adaptor 300 to 75 Ohm TV-Set Balun 75 to 300 Ohm Antenna Balun with Screw Type Connector 21 C ONNE C T ION S O CK E T S , P L UG S A ND T E R MIN AT OR S 3105MBT2U 3105RG59PFS 3105DPOUV 3105PF-PF 3105RG59PMS 3105PM-PM Outdoor Balun with F-type Connector Outdoor Diplexer UHF/VHF with F-Type Connectors. RG59 Metal PAL Male Plug 22 MASTER ANTENNA TELEVISION RG59 Metal PAL Female Plug PAL Female to PAL Female Coax Joiner PAL Male to PAL Male Coax Joiner C ONNE C T ION S O CK E T S , P L UG S A ND T E R MIN AT OR S 3105BNC59 3105BNC6 3105BNC-RCA 3105RG6PF 3105RG6PM 3105DPUV BNC 3 Piece for RG-59 Coax Adaptor BNC to RCA Coax PAL Plug for RG-6 BNC 3 Piece for RG-6 Coax PAL Socket for RG-6 Indoor Diplexer VHF/UHF with F-type Connectors 23 SP L I T T E R S 3105S2 3105S3 2-Way Screw & Saddle Splitter FREQUENCY RANGE (mhz) 5-45 46-470 471-860 3-Way Screw & Saddle Splitter INSERTION LOSS (dB) ≤ 3.7 ≤ 3.7 ≤4 3105S4 FREQUENCY RANGE (mhz) 5-45 46-470 471-860 INSERTION LOSS (dB) ≤ 5.7 ≤ 6.3 ≤ 6.5 3105SPFP2 4-Way Screw & Saddle Splitter 2-way F-Type Splitter F E AT UR E S A ND B E NE F I T S Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass all ports Low loss 1750-2050 FREQUENCY RANGE (mhz) 5-45 46-470 471-860 INSERTION LOSS (dB) ≤ 7.5 ≤ 7.6 ≤8 FREQUENCY RANGE (mhz) 5-40 40-1000 1000-1750 1750-2050 INSERTION LOSS (dB) 5.5 4.6 5.3 6.3 Foxtel Approval Number: F10082/C 3105SPFP3 3105SPFP4 F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass all ports Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass all ports Low loss 1750-2050 3-Way F-Type Splitter FREQUENCY RANGE (mhz) 5-40 40-1000 1000-1750 1750-2050 INSERTION LOSS (dB) 8 7.5 9 11.5 Foxtel Approval Number: F10082/C 24 MASTER ANTENNA TELEVISION 4-Way F-Type Splitter FREQUENCY RANGE (mhz) 5-40 40-1000 1000-1750 1750-2050 Foxtel Approval Number: F10082/C INSERTION LOSS (dB) 8 8.5 10.5 11.5 SP L I T T E R S 3105SPF2 3105SPF3 F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass all ports Low loss 1750-2050 Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass all ports Low loss 1750-2050 2-Way F-Type Splitter 1 Leg Power Pass FREQUENCY RANGE (mhz) 5-45 46-470 471-860 1750-2050 3-Way F-Type Splitter 1 Leg Power Pass INSERTION LOSS (dB) ≤3 ≤ 3.5 ≤ 4.4 FREQUENCY RANGE (mhz) 5-45 46-470 471-860 INSERTION LOSS (dB) ≤ 5.5 ≤ 6.1 ≤ 6.3 3105SPF4 3105SPF6 4-Way F-Type Splitter 1 Leg Power Pass 6-Way F-Type Splitter 1 Leg Power Pass F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Nickel-plated zinc die-cast housings High shielding with –120dB RFI Power-pass all ports Low loss 1750-2050 Nickel-plated zinc die-cast housings High shielding with - 120dB RFI Power-pass all ports Low loss 1750-2050 FREQUENCY RANGE (mhz) 5-45 46-470 471-860 INSERTION LOSS (dB) ≤ 6.9 ≤ 7.5 ≤ 7.8 FREQUENCY RANGE (mhz) 5-45 46-470 471-860 INSERTION LOSS (dB) ≤ 9.2 ≤ 10.2 ≤ 10.7 25 SP L I T T E R S T O OL S 3105CT611 3105SPF8 Crimping Tool for RG59, RG6 and RG11 Connectors 8-Way F-Type Splitter 1 Leg Power Pass F E AT UR E S A ND B E NE F I T S Nickel-plated zinc die-cast housings High shielding with - 120dB RFI Power-pass all ports Low loss 1750-2050 F E AT UR E S A ND B E NE F I T S FREQUENCY RANGE (mhz) 5-45 46-470 471-860 INSERTION LOSS (dB) ≤ 10.3 ≤ 11.2 ≤ 11.8 Crimp sizes: • 0.360 for RG59 and RG6 F-type connectors • 0.470 for RG11 F-type connectors • 0.1 for RG11 centre pin (for separate pin connectors). T O OL S 3105CS6 3105CS11 F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Cable preparation tool for RG6 and RG59 cable. For use with 0.360 size F-type connector. Cable preparation tool for RG11 cable. For use with 0.470 size F-type connector. RG6 and RG59 Cable Stripper 26 MASTER ANTENNA TELEVISION RG11 Cable Stripper F L USH M OUN T ING C ONNE C T ION A C CE S S OR IE S 31VTVA Standard TV Antenna Socket Flush Mounting 300 Ohm TV Socket 32TVACFF F-Type Connectors, One with 3KV AC Isolation Two Gang Standard Flush Plate F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Insulated 75 Ohm Coaxial TV Socket fitted to 31VH Plate. 300 Ohm TV Antenna Flush Socket 70 x 115mm Plate. Mating connections screw into the connector to provide minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. FTA outlet not suitable for applications over 1000Mhz. Not suitable for applications over 1000Mhz. 31VTV75 Standard TV Antenna Socket Flush Mounting 75 Ohm Coaxial TV Socket 32TVFF F-Type Connector Two Gang Standard Flush Plate F E AT UR E S A ND B E NE F I T S Insulated 75 Ohm Coaxial TV Socket fitted to 31VH Plate. Mating connections screw into the connector to provide minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. Not suitable for applications over 1000Mhz. FTA outlet not suitable for applications over 1000Mhz. 31TVF 32TVSF F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Mating connections screw into the connector to provide minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. Plate size 115x73mm. F-Type Connector provides minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. The solderless connector features a terminal with screw for the inner core and saddle clamp for outer shield. Not suitable for applications over 1000Mhz. FTA outlet not suitable for applications over 1000Mhz. F E AT UR E S A ND B E NE F I T S F-Type Connector, Single Standard Flush Plate marked “Pay TV” One F-Type, and One Solderless 75 Ohm Connector Two Gang Standard Flush Plate 27 FLUSH MOUNTING CONNECTION ACCESSORIES 2 0 0 0 SE R IE S 31VTV75ACF 2031VTV05 F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Insulated 75 Ohm Coaxial TV Socket fitted to 31VH Plate. Dimensions 116x76mm. Mounting centres 84mm. Recommended for mounting to 164 series Wall Box. Can be used with all Standard Pattern Mounting accessories. Standard TV Antenna Socket Flush Mounting 75 Ohm TV Socket with 3kVac Isolation Not suitable for applications over 1000Mhz. 2000 Series TV Outlet Plate with 12mm Hole to suit 75 Ohm Coaxial TV Antenna Socket Mechs Not suitable for applications over 1000Mhz. 31VTV75F Standard TV Antenna Socket Flush Mounting 75 Ohm TV Socket with F-Type Connection 2031VTV75 2000 Series TV Antenna Socket Flush Mounting 75 Ohm Coaxial Socket F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Insulated 75 Ohm Coaxial TV Socket fitted to 31VH Plate. Not suitable for applications over 1000Mhz. 32VTV75FM Standard TV Antenna Socket Flush Mounting TV - FM Splitter F E AT UR E S A ND B E NE F I T S Insulated 75 Ohm Coaxial TV Socket fitted to 31VH Plate. TV-FM Splitter fitted to Standard Flush Plate Not suitable for applications over 1000Mhz. 28 MASTER ANTENNA TELEVISION Dimensions 116x76mm. Mounting centres 84mm. Suits Standard Mounting accessories. Recommended for use with 164 Wall Box. Can be used with all Standard Mounting accessories. Not suitable for applications over 1000Mhz. 2 0 0 0 SE R IE S 2031VTV75ACF 2032VTV75FM F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Dimensions 116x76mm. Mounting centres 84mm. Suits Standard Mounting accessories. Super low loss F type screw in cable connection. Recommended for use with 164 Wall Box. Can be used with all Standard Mounting accessories. Dimensions 116x76mm. Mounting centres 84mm. Suits Standard Mounting accessories. Super low loss F type cable connection. Maximises TV and FM radio signals, for improved reception in poor reception areas. 2000 Series TV Antenna Socket Flush Mounting 75 Ohm TV Socket with 3kVac Isolation 2000 Series TV Antenna Socket Flush Mounting Dual 75 Ohm TV - FM Splitter Not suitable for applications over 1000Mhz. Not suitable for applications over 1000Mhz. 2031VTV75F 2000 Series TV Antenna Socket Flush Mounting 75 Ohm TV Socket with F-Type Connection 2031TVF F-Type Connector Single 2000 Series Flush Plate Marked “Pay TV” F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Dimensions 116x76mm. Mounting centres 84mm. Suits Standard Mounting accessories. Super low loss F type cable connection. Recommended for use with 164 Wall Box. Can be used with all Standard Mounting accessories. Not suitable for applications over 1000Mhz. Mating connections screw into the connector to provide minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. Plate size 116x76mm. 2032TVACFF F-Type Connectors, One with 3KV AC Isolation Two Gang 2000 Series Flush Plate F E AT UR E S A ND B E NE F I T S Mating connections screw into the connector to provide minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. FTA outlet not suitable for applications over 1000Mhz. 29 C 2 0 0 0 SE R IE S 2032TVFF F-Type Connector Two Gang 2000 Series Flush Plate P 2 0 0 0 SE R IE S P2031VTV75 Prestige P2000 Series TV Antenna Socket Outlet Flush 75 Ohm Coaxial Socket F E AT UR E S A ND B E NE F I T S Mating connections screw into the connector to provide minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. FTA outlet not suitable for applications over 1000Mhz. F E AT UR E S A ND B E NE F I T S Dimensions 116x73mm. Mounting centres 84mm. Suits Standard Mounting accessories. Recommended for use with 164 Wall Box. Not suitable for applications over 1000Mhz. 2032TVSF One F-Type, and One Solderless 75 Ohm Connector Two gang 2000 Series Flush Plate P30TV75MS Prestige Series TV Antenna Mechanism 75 Ohm Socket F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S F-Type Connector provides minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. The solderless connector features a terminal with screw for the inner core and saddle clamp for outer shield. FTA outlet not suitable for applications over 1000Mhz. C2031VTV75G C2000 Series Grid Assembly Flush Mounting 75 Ohm Coaxial TV Socket F E AT UR E S A ND B E NE F I T S Dimensions 113x73mm. Mounting centres 84mm. Suitable for mounting to standard pattern mounting accessories. Suits C2031C series cover only. Not suitable for applications over 1000Mhz. 30 MASTER ANTENNA TELEVISION 75 Ohm Coaxial TV Connection. Socket Mechanism Screw Connection - Solderless Type To Suit Prestige Grids. Not suitable for applications over 1000Mhz. HE R I TA GE 1920STV75 1920SRTV75 F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Dimensions - Cover 53mm diameter x 25mm high. Base projection 13mm. The socket is designed to accommodate solid core conductor coaxial cables with insulation (dielectric) up to 5mm diameter. eg RG59/u, RG6/u, TM3502, SSA37, etc. cables. Dimensions - Cover 54mm diameter x 25mm high. Base projection 13mm. The socket is designed to accommodate solid core conductor coaxial cables with insulation (dielectric) up to 5mm diameter. eg RG59/u, RG6/u,TM3502, SSA37 etc. cables. Not suitable for applications over 1000Mhz. Not suitable for applications over 1000Mhz. Heritage Range Shallow Surface Mounted 75 Ohm TV Outlet with Brass Cover Heritage Range Shallow Surface Mounted 75 Ohm TV Outlet with Ribbed Brass Cover H A NG SE L L - B L IS T E R P A CK S BL1920STV75 BL1920SRTV75 Heritage Range Shallow Surface Mounted Blister Packed 75 Ohm TV Outlet Heritage Range Shallow Surface Mounted Blister Packed 75 Ohm TV Outlet with Ribbed Cover F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Dimensions - Cover 53mm diameter x 25mm high. Base projection 13mm. The socket is designed to accommodate solid core conductor coaxial cables with insulation (dielectric) up to 5mm diameter. eg RG59/u, RG6/u TM3502, SSA37, etc. cables. Dimensions - Cover 54mm diameter x 25mm high. Base projection 13mm. The socket is designed to accommodate solid core conductor coaxial cables with insulation (dielectric) up to 5mm diameter. eg RG59/u, RG6/u, TM3502, SSA37 etc. cables. Not suitable for applications over 1000Mhz. Not suitable for applications over 1000Mhz. 31 A UD IO / V ID E O A C CE S S OR IE S 3105AVL318 1.8m Length 3RCA to 3RCA Lead F E AT UR E S A ND B E NE F I T S Stereo Audio / Video lead with RCA connectors 3105SC-SC Scart - Scart Lead 32 MASTER ANTENNA TELEVISION 3105SC-6RCA Scart - 6 RCA Lead A N T E NN A ME CH A NISM S 3105FL118FB PAL Male to Female Fly-Lead (Black) 3105FL118FBQ PAL Male to Female Fly-Lead Quad Shield (Black) F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S 1.8m length lead with RG 59 cable and PAL male to PAL female fly-lead. 1.8m length lead with RG6 Quad Shield cable and PAL male to PAL female fly-lead. 3105FL118MB 3105FL118FW F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S 1.8m length lead with RG 59 cable and PAL male to PAL male fly-lead. 1.8m length lead with RG 59 cable and PAL male to PAL female fly-lead. 3105FL118FWQ 3105FL118MW PAL Male to PAL Male Fly Lead (Black) PAL Male to Female Fly-Lead Quad Shield (White) PAL Male to Female Fly-Lead (White) PAL Male to PAL Male Fly Lead (White) F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S 1.8m length lead with RG6 Quad Shield cable and PAL male to PAL female fly-lead. 1.8m length lead with RG 59 cable and PAL male to PAL male fly-lead. 33 A N T E NN A ME CH A NISM S 3105FL118MBQ PAL Male to PAL Male Fly Lead Quad Shield (Black) 3105FL150MB PAL Male to PAL Male Fly-Lead (Black) F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S 1.8m length lead with RG 6 Quad Shield cable and PAL male to PAL male fly-lead. 5m length lead with RG 59 cable and PAL male to PAL male fly-lead. 3105FL318MB 3105FL118MWQ F-Type to PAL Male Fly Lead (Black) PAL Male to PAL Male Fly-Lead Quad Shield (White) F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S 1.8m length lead with RG59 cable and F-Type to PAL male fly-lead 1.8m length lead with RG6 Quad Shield cable and PAL male to PAL male fly-lead. 3105FL150MW 3105FL318MW F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S 5m length lead with RG59 cable and PAL male to PAL male fly-lead 1.8m length lead with RG59 cable and F-type to PAL male lead. 5m Length PAL Male Fly-Lead (White) 34 MASTER ANTENNA TELEVISION RG59 PAL to F-type Lead (White) A N T E NN A ME CH A NISM S 3105FL318MBQ 3105FL318MWQ F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S 1.8m length lead with RG6 Quad Shield cable and F-type to PAL male fly-lead. 1.8m length lead with RG6 Quad Shield cable and F-type to PAL male fly-lead. F-type to PAL Male Fly Lead Quad Shield (Black) F-type to PAL Male Fly Lead Quad Shield (White) C ONNE C T ION S O CK E T S A ND P L UG S 30PFM F-Type Connector Mechanism Only, Suits All 30 Series Apertures 30TV75MF TV Antenna Connection Accessory 75 Ohm TV Antenna Socket with F-Type Connection F E AT UR E S A ND B E NE F I T S Mating connections screw into the connector to provide minimum signal loss and optimum impedance matching to substantially reduce reflections and ghosting. F E AT UR E S A ND B E NE F I T S Insulated 75 Ohm Coaxial TV Socket with F-Type Connection to suit 30 Series Plate Apertures. Not suitable for satellite services. 35 C ONNE C T ION S O CK E T S A ND P L UG S 30TV75M TV Antenna Connection Accessory 75 Ohm TV Antenna Socket Fits 30 Series Plates 30TV75MACF TV Antenna Connection Accessory 75 Ohm TV Antenna Socket with 3kV AC Isolation F E AT UR E S A ND B E NE F I T S F E AT UR E S A ND B E NE F I T S Insulated 75 Ohm Coaxial TV Socket to suit 30 Series Plate Apertures. Not suitable for satellite services. 30TV75MS TV Antenna Connection Accessory 75 Ohm TV Antenna Socket - Screw Fixed Solderless F E AT UR E S A ND B E NE F I T S 75 Ohm Coaxial TV Connection Socket Screw Connections, “SOLDERLESS TYPE” to fit 30 Series Plate Aperture. Not suitable for satellite services. 36 MASTER ANTENNA TELEVISION Insulated 75 Ohm Coaxial TV Socket with F-Type Connection & 3kV AC Isolation to suit 30 Series Plate Apertures. Not suitable for satellite services. INDEX CATALOGUE NUMBER PAGE CATALOGUE NUMBER PAGE BL1920SRTV75 31 3105BNC59 23 BL1920STV75 31 3105BNC6 23 C2031VTV75G 30 3105BNC-RCA 23 P2031VTV75 30 3105BT1U 21 P30TV75MS 30 3105BT2U 21 1920SRTV75 31 3105CS11 26 1920STV75 31 3105CS6 26 2031TVF 29 3105CT611 26 2031VTV05 28 3105DA30 16 2031VTV75 28 3105DPOUV 22 2031VTV75ACF 29 3105DPUV 23 2031VTV75F 29 3105FF-FF 20 2032TVACFF 29 3105FL118FB 33 2032TVFF 30 3105FL118FBQ 33 2032TVSF 30 3105FL118FW 33 2032VTV75FM 29 3105FL118FWQ 33 2B11Q3 14 3105FL118MB 33 2B11Q3F 14 3105FL118MBQ 34 2B59D1 12 3105FL118MW 33 2B59D3B 12 3105FL118MWQ 34 2B6D1 12 3105FL150MB 34 2B6D3B 12 3105FL150MW 34 2B6Q1 13 3105FL318MB 34 2B6Q3 13 3105FL318MBQ 35 2B6Q3B 13 3105FL318MW 34 2B6Q3F 13 3105FL318MWQ 35 2B6T3B 13 3105FM 21 30PFM 35 3105FTER 19 30TV75C 19 3105MBT2U 22 30TV75C1 19 3105MBT3U 21 30TV75CS 19 3105MH24W 15 30TV75M 36 3105MH34U 16 30TV75MACF 36 3105MH34W 15 30TV75MF 35 3105MH38W 15 30TV75MS 36 3105PF-FF 21 30TV75P 19 3105PF-FM 21 3105AVL318 32 3105PF-PF 22 37 INDEX CATALOGUE NUMBER 38 PAGE CATALOGUE NUMBER PAGE 3105PM-FF 20 31VTV75 27 3105PM-PM 22 31VTV75ACF 28 3105RG59F 20 31VTV75F 28 3105RG59FT 20 31VTVA 27 3105RG59PFS 22 32TVACFF 27 3105RG59PMS 22 32TVFF 27 3105RG6F 20 32TVSF 27 3105RG6FT 20 32VTV75FM 28 3105RG6PF 23 3105RG6PM 23 3105S2 24 3105S3 24 3105S4 24 3105SA2/10 16 3105SC-6RCA 32 3105SC-SC 32 3105SPF2 25 3105SPF3 25 3105SPF4 25 3105SPF6 25 3105SPF8 26 3105SPFP2 24 3105SPFP3 24 3105SPFP4 24 3105T1/10 17 3105T1/12 17 3105T1/15 17 3105T1/20 17 3105T2/10 17 3105T2/12 17 3105T2/15 18 3105T2/20 18 3105T4/10 18 3105T4/12 18 3105T4/15 18 3105T4/20 18 31TVF 27 MASTER ANTENNA TELEVISION AUSTRALIA Clipsal Australia Pty Ltd Tel: +618 8269 0511 Fax: +618 8340 1724 [email protected] CHINA Clipsal China Ltd Tel: +86 755 8237 5959 Fax: +86 755 8237 5995 [email protected] HONG KONG Clipsal Datacom Asia Limited Tel: +852 2487 0261 Fax: +852 2480 5865 [email protected] INDIA Schneider Electric India Pvt Ltd Tel: +91 11 5159 0000 Fax: +91 11 5167 8010 www.schneider-electric.co.in INDONESIA PT Clipsal Graha Nusa Tel: +62 21 630 6430 Fax: +62 21 631 6279 [email protected] KOREA Clipsal Datacoms Korea Co Ltd Tel: +82 2 546 3335 Fax: +82 2 546 3393 [email protected] MALAYSIA Clipsal Datacomms (M) Sdn Bhd Tel: +603 7665 3555 Fax: +603 7665 3155 [email protected] NEW ZEALAND Clipsal Industries (NZ) Limited Tel: +64 9 576 3403 Fax: +64 9 576 1015 [email protected] PAKISTAN Clipsal Pakistan (Pvt) Ltd Tel: +92 21 506 7278 Fax: +92 21 506 3369 [email protected] PHILIPPINES Clipsal Datacomm Asia Limited Tel: +632 683 0275-78 Fax: +632 683 0279 [email protected] SINGAPORE Clipsal Datacomms (S) Pte Ltd Tel: +65 6415 3232/3233 Fax: +65 6415 3289 [email protected] SOUTH AFRICA Clipsal South Africa (Pty) Ltd Tel : +27 11 314 5200 Fax: +27 11 314 5294 [email protected] TAIWAN Clipsal (Taiwan) Co., Ltd Tel: +886 2 255 83456 Fax: +886 2 255 83000 [email protected] THAILAND Clipsal (Thailand) Co Ltd Tel:+662 952 5338-42 Fax: +662 952 5337 [email protected] UNITED ARAB EMIRATES Clipsal Middle East Tel: +971 6 5570 777 Fax: +971 6 5570 333 [email protected] UNITED KINGDOM Clipsal Integrated Systems UK Tel: +44 (0) 1628 508 530 Fax: +44 (0) 1628 508 565 [email protected] VIETNAM Clipsal - VTEC Tel: +848 856 3002 Fax: +848 856 3006 [email protected] O/N 5902 NOV 04/02 CLIPADV 8511 Clipsal Datacomms reserves the right to change specifications, modify designs and discontinue items without incurring obligation and whilst every effort is made to ensure that descriptions, specifications and other information in this catalogue are correct, no warrant is given in respect thereof and the company shall not be liable for any error therein. © 2003/04 Clipsal Datacomms www.clipsaldatacomms.com