all | frequencies |
|
exhibits | applications |
---|---|---|---|---|
manual |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
User Manual | Users Manual | 649.91 KiB | ||||
1 | Cover Letter(s) | |||||||
1 | External Photos | |||||||
1 | Internal Photos | |||||||
1 | RF Exposure Info | |||||||
1 | Test Report | |||||||
1 | Test Setup Photos | |||||||
1 | ID Label/Location Info |
1 | User Manual | Users Manual | 649.91 KiB |
FIXED BAND OFF-AIR REPEATERS OR2-SBLP1 SERIES Doc. code 91 080 0730F - Rel. 02 TECHNICAL HANDBOOK Radio Frequency Systems Kabelkamp 20 30179 Hannover, Germany Tel.: +49 511 676 2731 Fax: +49 511 676 2515 E-mail: sales.europe@rfsworld.com INDEX 1. FIXED BAND OFF-AIR REPEATERS - OR2-SBLP1 SERIES.................................................................... 2 2. OPERATING MODE ..................................................................................................................................... 3 3. TECHNICAL SPECIFICATIONS .................................................................................................................. 4 4. PROCEDURES FOR INSTALLATION AND POWER-UP ........................................................................... 5 4.1. PLANNING INSTALLATION .................................................................................................................. 5 Selecting the position for the outdoor antenna ...................................................................................... 5 Isolation between the antennas ............................................................................................................. 6 Repeater gain setting ............................................................................................................................. 6 4.2. MECHANICAL AND ELECTRICAL INSTALLATION OF THE REPEATER.................................................. 7 Initial check............................................................................................................................................. 7 Positioning.............................................................................................................................................. 7 Connections ........................................................................................................................................... 8 How to set the repeater gain.................................................................................................................. 8 4.3. POWER-UP................................................................................................................................................... 8 5. EXTRAORDINARY MAINTENANCE TROUBLESHOOTING .................................................................. 9 ATTACHED DOCUMENTS:
- ABBREVIATIONS AND ACRONYMS
- SAFETY RULES ILLUSTRATIVE DIAGRAM (ILL OR2-SBLP1 SERIES) 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 1 ENG Edit. 02 1. FIXED BAND OFF-AIR REPEATERS - OR2-SBLP1 SERIES Over the past decade, the growing diffusion of portable terminals has created the need for capillary coverage of the territory. Telecommunications networks must permit coverage services throughout the territory in the most extensive manner possible and, at the same time, guarantee the reliability and quality of the connection. From this point of view, the availability and quality of the services must be also guaranteed indoors, i.e. inside buildings. OR2-SBLP1 SERIES has been designed specifically to improve cell coverage to indoor environments (indoor applications): offices, stores, parking lots, malls, airports and train stations. Each equipment in OR2-SBLP1 series is dedicated to a mobile standard (please refer to TABLE 1). OR2-SBLP1 SERIES REPEATER MODEL OR2-SBLP1-800 RFS OR2-SBLP1-900R RFS OR2-SBLP1-900 RFS OR2-SBLP1-1800 OR2-SBLP1-1900 STANDARD AMPS (800MHz) CDMA/TDMA GSM-R (900MHz) EGSM (900MHz) DCS (1800MHz) PCS (1900MHz) TABLE 1 NB:
OR2-SBLP1 Off-Air Repeaters are fixed band. It means each equipment is only able to improve the coverage of predefined and non-modifiable band of frequencies configured during manufacturing process. Center frequency and bandwidth (up to 4MHz for GSM-R standard, up to 25MHz for AMPS/PCS standards and up to 15MHz for GSM/DCS standard) are factory pre-set upon customer request. 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 2 ENG Edit. 02 2. OPERATING MODE Off-Air Repeaters for indoor applications are connected, by means of coaxial cables, to two antennas. The donor antenna, an outdoor one, interfaces the equipment with the Mobile Operators Base Transceiver Station (BTS). The service antenna, an indoor one, empowers the coverage of the indoor dead spot, and so it interfaces mobile terminals. The signal to be enhanced follows two distinct paths (FIGURE 1). The up-link path, from mobile terminals to the BTS, and the down-link path, from the BTS to mobile terminals. Along the down-link path, the outdoor antenna receives the signal from the BTS and then, by means of the connecting cable, delivers it to the repeater BTS connector (ILL OR2-SBLP1 SERIES, ref. 4). The repeater filters, amplifies and transmits the signal by feeder cable to the indoor antenna filling the indoor dead spot. Indoor antenna is connected to the repeater MS connector (ref. 7, ILL OR2-SBLP1 SERIES). Along the up-link path, the indoor antenna receives the signal from the mobile terminals (MS) and delivers it to the repeater. The repeater filters, amplifies and transmits the signal by the outdoor antenna to Operators BTS. FIGURE 1 DOWN-LINK and UP-LINK PATHS OR2-SBLP1 series repeaters have got built-in attenuators to allow adjustable gain. DIP-switches (ref. 5 and ref. 6, ILL OR2-SBLP1 SERIES) are available to adjust the gain separately for up-link and down-link paths. During installation, equipment gain can be adjusted to reduce interference towards the BTS and to avoid problems related with the isolation between the antennas. During operation, the equipment Automatic Level Control (ALC) protects against the emission of high intermodulation products, both in case that the user is in the nearby vicinity of the indoor antenna (ALC up-
link) and in case of a temporary level increase of the signal coming from the donor antenna (ALC down-link). 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 3 ENG Edit. 02 3. TECHNICAL SPECIFICATIONS FEATURE Frequency bands Up-link Down-
link Amplified bandwidth Gain Attenuation Range / Step Pass-band ripple Maximum output power (Up-link &
Down-link) Noise figure at maximum gain Out of band gain Spurious / Total delay ALC (Automatic Level Control) range Power supply Power consumption RF connectors Temperature Dimensions (h-w-d) Weight OR2-SBLP1-
800 OR2-SBLP1-
900R OR2-SBLP1 SERIES REPEATER MODEL OR2-SBLP1-
OR2-SBLP1-
900 1800 OR2-SBLP1-
1900 824-845MHz 876-880MHz 880-915MHz 1710-1785MHz 1850-1910MHz 869-894MHz 921-925MHz 925-960MHz 1805-1880MHz 1930-1990MHz Up to 25MHz
(customized upon Customer request) Up to 4MHz
(customized upon Customer Up to 15MHz request) Up to 25MHz
(customized upon Customer request) 30dB Up to 60dB / 1dB step 2dB 12dBm (2 carriers) 6dB Compliant to local regulations 20dB 100-230Vac @ 50-60Hz / 24VA
(AC/DC converter supplied with the equipment) N type female
+5 up to +50C 220x150x40mm 1.3kg All values are typical at 25C unless otherwise specified. Specifications subject to change without notice 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 4 ENG Edit. 02 4. PROCEDURES FOR INSTALLATION AND POWER-UP Before installing, carefully read the safety norms herewith attached. The equipment must be connected to ancillaries specifically designed for the standard in use and the band to be enhanced. The OR2-SBLP1 SERIES has been designed for indoor use only. Changes in temperature and humidity can influence the reliability of the equipment. The best place to install the equipment is a tempered and well-ventilated environment. A correct equipment installation and setting procedure requires a good knowledge and experience in installing telecommunication equipment. These activities should be performed by skilled personnel only. Remember that if the equipment is not installed correctly, it may:
- cause a temporary failure in the BTS,
- be damaged by excessively high input or output signal levels. To install the equipment we strongly suggest to follow the steps described in the paragraph below. 4.1. PLANNING INSTALLATION Selecting the position for the outdoor antenna The power of the signal coming from the outdoor antenna (donor antenna) has a direct influence on the efficiency of the indoor coverage. Therefore, it is extremely important to take care in choosing the position for this antenna and in installing it correctly. Before installing the outdoor antenna, it is necessary to point the donor BTS to guarantee the best reception of signal to be enhanced. The best way to perform this activity is by connecting the donor antenna to a spectrum analyzer (or to a field intensity level measurement instrument) to evaluate the orientation and position of the antenna which can provide the best signal level. It is strongly recommended to keep both antennas away from obstacles such as mountains, tall buildings or billboards. It is furthermore recommended to use a directional outdoor antenna with, at least, 10dBi gain and to make sure, insofar as possible, that the antenna is pointing directly towards the BTS. Please Note:
To obtain the best equipment performances, the outdoor signal must be stronger than -70dBm and must not go above -20dBm. If the outdoor signal is weaker than -70dBm, it is strongly recommended to use a high-gain directional outdoor antenna. The ideal outdoor signal level is in the -60 to -70dBm range. 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 5 ENG Edit. 02 Isolation between the antennas Since the equipment is a bi-directional amplifier, the isolation between the outdoor antenna (donor) and the indoor antenna (service) must be at least 15dB greater that the repeater gain. For example, if the repeater gain is 60dB, the minimum isolation between both antennas must be greater than 75dB. To guarantee the correct isolation between the antennas, it is necessary to plan for an adequate distance between them, both horizontally and vertically. Also walls and floors can be useful to increase the isolation between the antennas. Repeater gain setting During installation, it is necessary to adjust the equipment gain. The right calculation of the gain to be set cannot be made without an evaluation of all the variables which characterize each installation. The minimum gain value to be set on the up-link / down-link path is determined by considering the maximum output power and the maximum allowed input level of the equipment (-20dBm). The balance between losses and gains for the equipment (link budget) permits adjusting the attenuation of the two paths (down-link / up-link), in order to reduce interferences towards the BTS and to avoid problems connected with the isolation between the antennas. Link budget also permits checking whether or not the output signals from the equipment (towards the BTS and towards the mobile terminals) are adequate. PLEASE NOTE:
The repeater has been developed to operate at maximum gain. If attenuated, maximum output power will be reduced proportionally. ALC is always enabled. It is strongly recommended to set the repeater gain at maximum level. Attenuation should be set only if antenna isolation is not enough (less than 75dB). 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 6 ENG Edit. 02 4.2. MECHANICAL AND ELECTRICAL INSTALLATION OF THE REPEATER Upon completion of the planning stage, you can proceed with the installation of the antennas (indoor and outdoor) and then with the installation and power-up of the repeater. Please remember: the OR2-SBLP1 SERIES is designed for indoor use ONLY. Initial check Check the contents of the supply in terms on its completeness and/or eventual damage undergone by the material during transport. The materials included in the supply are:
OR2-SBLP1 SERIES equipment, External AC/DC adapter, Technical manual. If there should be anything missing or damaged in the supply, you should notify the Sales Dept. of RFS, to facilitate the reinstatement and/or repair of the equipment involved. Before beginning installation of the equipment, make sure that ON/OFF switch, ref. 3 (ILL OR2-
SBLP1 SERIES), is in the OFF position. The green LED, ref. 2 (ILL OR2-SBLP1 SERIES), must be turned off. Positioning To avoid damages to people, it is highly recommended to install the equipment at 2.5metres high positioning, in order to prevent electric shock caused by contact. Position the OR2-SBLP1 SERIES equipment and fix its position with the four M4 bolts, which are to be inserted in the pre-cut slots, ref. A (FIGURE 2). Check the correct positioning of the equipment before completely tightening the bolts. A 206 mm (8.11 in.) A DOWN-LINK
- 16 - 8 - 4 - 2 - 1 UP-LINK
. n i 4 5
. 3
m m 0 9 A FIGURE 2 POSITION OF THE PRE-CUT SLOTS A 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 7 ENG Edit. 02 Connections A) Connect the cable from the outdoor antenna to connector N (f) BTS side, ref. 4 (ILL OR2-SBLP1 SERIES). B) Connect the cable from the indoor antenna to connector N (f) MS side, ref. 7 (ILL OR2-SBLP1 SERIES). C) Connect the power supply connector for the external AC/DC adapter (standard supply) to the power supply socket connector of the equipment, ref. 1 (ILL OR2-SBLP1 SERIES). D) Connect the power supply plug of the external AC/DC adapter (standard supply) to the line power source corresponding to the specs of the equipment (i.e. 100-230V A.C.). For the connections, it is recommended that an RF cable having characteristics similar to the RFS cable type LCF14-50, be used. How to set the repeater gain PLEASE REMEMBER:
It is strongly recommended to set the repeater gain at maximum level. Attenuation should be set only if antenna isolation is not enough (less than 75dB). The OR2-SBLP1 SERIES equipment comes with selectors which permit separately adjusting the gain for both up-link and down-link paths. The maximum gain for the equipment is 60dB (typical). The attenuation of the gain can be adjusted in the 030dB range with steps of 1dB. The variations to be made to the gain on the up-link and down-link paths are determined during link budget calculation stage (ref. paragraph 4.1). Please set the gain as shown in FIGURE 3 (Example of gain adjustment). DOWN-LINK OFF ON
- 16 - 8 - 4 - 2 - 1 ON OFF UP-LINK DOWN-LINK OFF ON
- 16 - 8 - 4 - 2 - 1 ON OFF UP-LINK Path Down-link Up-link Attenuation
(see Figure) 0dB 0dB Gain 60dB 60dB Path Down-link Up-link Attenuation
(see Figure) 20dB 25dB Gain 40dB 35dB FIGURE 3 EXAMPLE OF GAIN ADJUSTMENT ON THE UP-LINK AND DOWN-LINK PATHS 4.3. POWER-UP Once all connections have been performed and the gain has been set, turn on the equipment by moving the switch indicated with ref. 3 (ILL OR2-SBLP1 SERIES) to the ON position. Green LED, ref. 2 (ILL OR2-SBLP1 SERIES), will light up to indicate the presence of the power supply voltage. Also by using the mobile phone, make sure that the RF signal is available and adequate in the area of equipment coverage. If there should be problems, please refer to the following paragraph (troubleshooting). 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 8 ENG Edit. 02 5. EXTRAORDINARY MAINTENANCE TROUBLESHOOTING The diagrams below describe the steps to be taken in troubleshooting, i.e. the series of operations which, in case of equipment malfunction, permit the end-user to identify, and if possible, eliminate the causes of the fault. PROBLEM ENCOUNTERED GREEN LED (ref. 2, ILL OR2-SBLP1 SERIES) IS OFF NO INDOOR SIGNAL GREEN LED (ref. 2, ILL OR2-
SBLP1 SERIES) IS OFF GREEN LED (ref. 2, ILL OR2-
SBLP1 SERIES) IS ON INDOOR SIGNAL IS TOO WEAK INDOOR SIGNAL IS PRESENT, BUT YOU CANNOT MAKE A PHONE CALL INDOOR SIGNAL IS NOT STABLE STEP 1 2 3 4 5 6 TABLE 2 PROBLEM SOLVING REFERENCE TO THE STEPS FOR TROUBLESHOOTING The following symbols are used in the diagrams:
Interrogation box Action box
(controls or checks) REFERENCE TO THE PROCEDURE x Re-direction box to other procedures x identifies the procedure 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 9 ENG Edit. 02 PROCEDURE 1 PROBLEM START Does the equipment guarantee service just the same?
GREEN LED (ref. 2, ILL OR2-SBLP1 SERIES) IS OFF no REFERENCE TO THE PROCEDURE 2 yes The LED is broken. The equipment can just the same extend the signal. END 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 10 ENG Edit. 02 PROCEDURE 2 PROBLEM START Is the ext. AC/DC adapter connected to the equipment? (connector ref. 1, ILL OR2-SBLP1 SERIES) yes Is the ext. AC/DC adapter plugged into the line voltage?
yes Is the line power voltage correct
(100-230Vac)?
yes Does the ext. AC/DC adapter supply a 7Vdc voltage?
yes Equipment might be broken. Contact RFS After-Sales service NO INDOOR SIGNAL The GREEN LED (ref. 2, ILL OR2-SBLP1 SERIES) IS OFF no Connect the ext. AC/DC adapter to the equipment LED = ON?
yes END no no no Connect the ext. AC/DC adapter to the line voltage LED = ON?
yes END no Correct the line voltage problem LED = ON?
yes END no no Replace the ext. AC/DC adapter LED = ON?
yes END no END 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 11 ENG Edit. 02 PROCEDURE 3 PROBLEM START All connections ok between equipment and the antennas?
yes Outdoor signal available
(> -70dBm)?
NO INDOOR SIGNAL The GREEN LED (ref. 2, ILL OR2-SBLP1 SERIES) = ON no yes Make the connections Signal available?
yes END no REFERENCE TO PROCEDURE 4 no Contact the phone company
(service provider) to solve the problem. END 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 12 ENG Edit. 02 PROCEDURE 4 PROBLEM START Outdoor signal level adequate
(> -70dBm)?
yes INDOOR SIGNAL is too WEAK no Proper outdoor antenna installed for signal available (ex. Directional antenna)?
Antenna positioned and oriented correctly?
yes Install an antenna suited to the outdoor signal available, or change the position and orientation of the outdoor antenna. yes END Signal available?
no Replace the cable Signal available?
END Connectors between equipment and antennas tight?
no Correctly make the connections Adjust the attenuations on the up & down link paths to optimize equipment performance yes Correct type cable installed?
no yes Equipment operating with correct attenuation?
no yes Replace the indoor antenna with a model providing better performance Signal available?
no yes Equipment might be broken. Contact RFS After-Sales service Contact the phone company
(service provider) to pinpoint the best signal source. Signal available?
no END END yes yes no yes Signal available?
END no END END 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 13 ENG Edit. 02 PROCEDURE 5 PROBLEM START Isolation between outdoor and indoor antennas = more than 15dB greater than repeater gain?
yes Is the attenuation on the up and down link paths set correctly?
yes INDOOR SIGNAL IS PRESENT, BUT YOU CANNOT MAKE A PHONE CALL no no Adjust the horizontal and vertical distance between the antennas until proper indoor/outdoor isolation is achieved. Phone calls possible?
yes END no Adjust the equipment attenuations so a to optimize performance Phone calls possible?
yes END no Contact the phone company (service provider) to solve the problem. Can you make phone calls outdoors?
no yes Equipment might be broken. Contact RFS After-Sales service END 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 14 ENG Edit. 02 PROCEDURE 6 PROBLEM START Is the outdoor signal stable?
no yes INDOOR SIGNAL IS NOT STABLE Try to stabilize the RF signal:
Find a BTS that provides better reception, or change the position and orientation of the outdoor antenna. Signal stable?
yes END no Contact the phone company
(service provider) to solve the problem. no yes no Adjust the horizontal and vertical distance between the antennas to the gain is 15dB more than the repeater gain END Signal stable?
yes END no Replace the damaged cables Signal stable?
yes END no Correctly make the connections Signal stable?
yes END no Is the isolation between outdoor and indoor antennas?
yes Check the RF connection cables. Are they damaged?
no Are you sure the connections between the equipment and the antennas are tight?
yes Equipment might be broken. Contact RFS After-Sales service END 91 080 0730F - OR2-SBLP1 SERIES FIXED BAND OFF-AIR REPEATERS Page 15 ENG Edit. 02 ATTACHED DOCUMENTS V 7 C D S T B
N O F F O DOWN-LINK
- 16 - 8 - 4 - 2 - 1 UP-LINK 1 2 3 4 5 6 M S 7 ACCESS POINTS MAP DESCRIPTION Vdc input GREEN LED ON: Vdc available ON/OFF switch BTS side N (f) connector UP LINK path gain adjustment DIP Switches DOWN LINK path gain adjustment DIP Switches MS side N (f) connector Rif./
Ref. 1 2 3 4 5 6 7 Part Number ILL OR2-SBLP1 SERIES Title OR2-SBLP1 SERIES ACCESS POINTS MAP Scale Copyright protection according to law Revisions Date ED. 01-1 13/11/2006 Drawn by Checked by Approved by Sheet CG MN AV 1/1 1) SAFETY RULES 1.1 Introduction The equipment described in this technical handbook has been designed and tested in conformity of international safety standards IEC215 / EN60215 and IEC950 / EN60950; the equipment has to be used under the responsibility of specialised personnel only. In accordance with IEC215 / EN60215, adjustment, maintenance and repair of the exposed equipment shall be carried out only by qualified personnel, who are aware of the hazards involved. The minimum qualifications are established in the standard. Final installation of the systems must fulfil the EMF emission levels, as requested by regulations in force
(recommendation n. 1999/519/EC). WARNING: Installation Notes Modular equipment, intended to be housed insidea rack cabinet, must be installed within a protected access area only. This area must be opportunely protected by security system that will exclude the entry, even if accidental, to not authorized and trained personnel. Alternatively, the cabinet, in which the equipment is housed, must be closed on all sides, to allow the access to internal parts to authorized personnel only 1.2 AC Power supply When working on the equipment always make sure that the equipment is not connected to the mains supply. Before power up always make sure that the equipment is connected to earth by using the equipment grounding bolt. If it is necessary to fit an AC power supply plug to power cable, the User must observe the following colour codes: LIVE terminal to BROWN lead NEUTRAL terminal to BLUE lead EARTH terminal to GREEN/YELLOW lead The User must also ensure that the protective earth wire would be the last to break, should the cable be subject to excessive strain. 1.3 Safety precautions For the correct and safe use of the equipment it is essential that both operation personnel and services personnel follow generally accepted safety procedures (see IEC Publications 215: "Safety measures for radio transmitting equipment" and 61010-1: "Safety requirements for electrical equipment for measurement, control, and laboratory use") in addition to the safety precautions specified in this technical handbook. Specific warnings and caution statements, where applicable, can be found throughout this technical handbook. Warning and caution statements and/or symbols are marked on the equipment where is necessary. (see also ANNEX n1). As far as the equipment safety devices are concerned please remind that: -periodic functional check shall be carried out on protective devices; -functional check shall be carried out on protective devices, when they have operated under fault conditions; -safety devices shall not be altered or disconnected except for replacement; -safety circuit shall not be modified. SAFETY RULES Page 1 ENG 1.4 Caution and warning statements Caution It's used to indicate the correct operation and maintenance, in order to prevent damage or destruction of equipment or other property. Warning of danger Used to indicate the potential hazard that requires correct procedures or practices in order to avoid personal injury. 1.5 Impaired safety protection Whenever it is likely that safe operation is impaired, the apparatus must be in-operative and secured against unintended operation. The appropriate servicing staff authority must be informed. For instance, the safety is likely to be impaired if the equipment fails to perform the prescribed measurements, or shows visible damages. 1.6 Electrostatic sensitive devices In case of electrostatic sensitive devices ( for instance all ICs and many other semiconductor devices belong to this class) it is essential to use a right protection to reduce the risk of personal injury. Careless handling, during repair, may imply life danger. When repairing, make sure that you are connected with the same potential as the ground of the equipment by means of the right devices, i.e. a GIRDLE (a wrist wrap with resistance) and a WINDING CORD to be connected to the girdle and to the relevant socket placed on the equipment. You must also keep components and tools at this potential. 1.7 Electrolytic Capacitors Non-solid electrolytic capacitors must not contain chemicals, which may be regarded as hazardous, if incorrectly handled. Caution is necessary, should the outer case be fractured. 1.8 Electric shock In case of electric shock it is recommended not to touch the person before breaking the circuit by means of the power supply switch; should it be not possible to break the circuit power supply it would be advisable to try to rescue the person by means of some insulating materials: e.g. a wood stick, a nylon cord or a suitable service made of plastics, etc. NEVER TOUCH ELECTROCUTED PEOPLE WITH YOUR HAND AS LONG AS THEIR BODIES ARE SUBJECTED TO VOLTAGE, OTHERWISE YOU TOO WOULD GET ELECTOCUTED. Call the doctor and then immediately perform the artificial respiration as described here below:
SAFETY RULES Page 2 ENG Lay the patient on his back with his arms parallel to his body; if the patient lies on an inclined plane, please make sure that his stomach be slightly lower than his breast. Open the patient's mouth and check if there are foreign bodies. Kneel down near the patient at the same level as his head's, put one of your hands under his head and the other one under his neck. Lift the patient's neck and let his head fall backwards the most possible. Shift your hand from the patient's neck to his chin; put your thumb between his chin and his mouth, your forefinger along his jawbone, keep your other fingers tight. By doing these operations start the self-oxygenation by means of deep breathings in standing open-mouthed. With your thumb between the patient's chin and his mouth, keep the patient's lips closed and blow into his nasal cavities. During these operations see if the patient's breast rises. If it is not so, his nose may be obstructed; in this case, by levering on his chin with your hand, open the patient's mouth, put your lips on and blow into his oral cavity. Look at the patient's breast and see if it rises. One can use this second method instead of the first one also if the patient's nose is not obstructed, provided that his nose be occluded by squeezing his nostrils with your hand after shifting it from his head. The patient's head must be kept bent backwards the most possible. Start with ten fast and deep expirations, then go on at the rhythm of twelve/fifteen expirations per minute. Continue as long as the patient has recovered consciousness, or a doctor has ascertained his death. 1.9 Burns As far as burns are concerned:
Don't try to take off clothes from the burnt parts;
Pour some cold water on body burnt areas and ask immediately for a doctor;
Don't apply ointments or oily tinctures. SAFETY RULES Page 3 ENG ANNEX 1 When the equipment or the modules are equipped with the labels as shown here below, it is essential to observe the warnings contained
-LIVE VOLTAGE POINT
-PROTECTIVE EARTHING TERMINAL BLACK
-CLASS 1 LASER PRODUCT BLACK BLACK YELLOW YELLOW BLACK EXPLANATORY LABEL WARNING LABEL
(affixed to the CLASS 1 product side) (affixed to the CLASS 1 product front) Products which are of CLASS 1 as defined in the IEC EN 60825-1, fourth edition Safety of laser products -Part 1: Equipment classification, requirements and user's guide. Even if the product is of CLASS 1, please observe the following safety procedures, prescribed in the cited norm:
do not observe directly the laser beam, do not use observation optics (lens, microscopes, telescopes, etc.), do not expose eyes directly. SAFETY RULES Page 4 ENG
-DEVICES SENSITIVE TO THE ELECTROSTATICS WARNING: Please observe the due precautions in handling devices which are sensitive to the electrostatics.
-NON-SOLID ELECTROLYPTIC CAPACITORS MAY CONTAIN CHEMICALS TO BE REGARDED AS HAZARDOUS, IF INCORRECTLY HANDLED. WARNING THE MAXIMUM CAUTION IS REQUIRED IF THE OUTER CASE IS FRACTURED SAFETY RULES Page 5 ENG 2) STANDARDS 2.1. MANUFACTURE LABELS 2.1.1 BAR CODE LABEL Label fields (ref. Fig.1):
Fig. 1 a) Serial number: this field contains the serial number (made up of a 7-digit sequential group) of the module or equipment. b) F (final test tracing out): this field contains an F letter that has been barred to certify that the item has been successfully tested in the factory Final Test Dept. c) Customer order reference. d) Equipment acronym or manufacture part number. e) ICS (Item Change Status): this field contains the item ICS, made up of 2 digits, starting from 01, of the manufacture part number or equipment. Fig.2 shows an example of bar code label applied:
Fig. 2 On equipment other labels may be present, as integration of what reported in bar code label (fig.1);
see following pages. STANDARDS Page 1 ENG 2.1.2 MANUFACTURE LABELS FOR RACK CABINETS AND EQUIPMENT
(1)
(4)
(9)
(5)
(2)
(6)
(10)
(7)
(3)
(8)
(11) 90mm Fig. 3 Label fields (ref. Fig.3):
(1) SYSTEM (it will be filled in only if the rack cabinet or the equipment belong to a system):
this field contains the system acronym.
(2) EQUIPMENT:
This field contains the acronym of the rack cabinet or equipment.
(3) MANUFACTURE PART NUMBER:
This field contains the manufacture part number either of the rack cabinet or the equipment.
(4) SERIAL NUMBER:
This field contains the serial number (made up of a 5-digit sequential group) of the rack cabinet or equipment. The serial number of each item comes from the manufacture orders print-out (for domestic and foreign markets).
(5) QIF (Quality Identification Factor):
FACTORY USE ONLY
(6) ICS (Item Change Status):
This field contains the item ICS, made up of 2 digits, of the rack cabinet or equipment.
(7) ORIGIN CODE:
FACTORY USE ONLY
(8) MANUFACTURE YEAR AND WEEK:
This field contains the manufacture year and week of the rack cabinet or equipment (4 digits, the first two of which indicate the year, while the last two digits indicate the relevant week) e.g. 9515: 15th week of 1995. STANDARDS Page 2 ENG
(9) SUPPLY VOLTAGE (from MAINS and/or from DC SOURCE)
(10) ABSORBED CURRENT
(11) MAINS FREQUENCY F (final test tracing out):
This field contains an F letter that has been barred to certify that the item has been successfully tested in the factory Final Test Dept. Fig.4 shows an example of manufacture label as applied to a RACK CABINET or to an EQUIPMENT. 58822 00021 01 230Vac/48Vdc 0.5Aac/0.89Adc A0122 9515 50/60 Hz
() System acronym (if any) Fig. 4 For instance, you will find the manufacture label placed:
- on the upper left corner of the rack cabinet frame;
- on the rear side (or on the external right side) of the equipment rack. STANDARDS Page 3 ENG 2.1.3 MANUFACTURE LABELS FOR RACKS AND PLUG-IN, OR WIRING TYPE, MODULES
(1)
(4)
(2)
(6)
(5)
(3)
(8)
(7) Fig. 5 Label fields (ref. Fig.5):
(1) SYSTEM (it will be filled in only if the rack or the module to be label belong to a system):
this field contains the system acronym.
(2) EQUIPMENT:
This field contains the acronym of the rack, or module.
(3) MANUFACTURE PART NUMBER:
This field contains the manufacture part number of the rack or module.
(4) SERIAL NUMBER:
This field contains the serial number (made up of a 5-digit sequential group) of the rack or module. The serial number of each item comes from the manufacture orders print-out (for domestic and foreign markets).
(5) QIF (Quality Identification Factor) FACTORY USE ONLY
(6) ICS (Item Change Status):
This field contains the item ICS, made up of 2 digits, of the rack or module.
(7) ORIGIN CODE:
FACTORY USE ONLY
(8) MANUFACTURE YEAR AND WEEK:
This field contains the manufacture year and week of the rack or module (4 digits, the first two of which indicate the year, while the last two digits indicate the relevant week) e.g. 9515: 15th week of 1995. STANDARDS Page 4 ENG F (final test tracing out):
This field contains an F letter that has been barred to certify that the item (rack or module) has been successfully tested in the factory Final Test Dept. Fig.6 shows an example of manufacture label as applied to a RACK or PLUG-IN, or WIRING TYPE MODULES. 58822 00021 01 A0122 9515 Fig. 6
() System acronym (if any) For instance, you will find the manufacture label placed:
- on the topside of the plug-in module, right or left;
- on the topside of the wiring-type module. 2.1.4 SUB-MODULES MANUFACTURE LABEL F Fig. 7 Label fields (ref. Fig.7):
(3) MANUFACTURE PART NUMBER:
This field contains the sub-module manufacture part number.
(5) QIF (Quality Identification Factor) FACTORY USE ONLY
(6) ICS (Item Change Status):
This field contains the item ICS, made up of 2 digits, of the sub-module.
(7) ORIGIN CODE:
FACTORY USE ONLY STANDARDS Page 5 ENG
(8) MANUFACTURE YEAR AND WEEK:
This field contains the manufacture year and week of the submodule (4 digits, the first two of which indicate the year, while the last two digits indicate the relevant week) e.g. 9542: 42nd week of 1995. F (final test tracing out):
This field contains an F letter that has been barred to certify that the item (sub-module) has been successfully tested in the factory Final Test Dept. Fig. 8 shows an example of manufacture label as applied to a SUB-MODULE. 00081 01 B0111 F Fig. 8 You will find the manufacture label placed on the sub-module top, left, or right side. STANDARDS Page 6 ENG 2.2) SYMBOLS EQUIPMENT FRONT SYMBOLS SYMBOLS DESCRIPTION SYMBOLS Earth connection DESCRIPTION Impulsive command SYMBOLS DESCRIPTION Band-stop filter Ground Fuse Low-pass filter Chassis ground Thermal breaker High-pass filter AC DC Pulse current Battery / accumulator Positive connector Negative connector OFF ON STAND-BY Failure Modulator, demodulator Overtemperature Stereo Output monitoring signal Input monitoring signal Direct power monitoring socket Reflected power monitoring socket Local oscillator monitoring socket Gating as opening criterion Gating as closing criterion P P L.O. Balance Amplifier Adjustable gain amplifier Loudspeaker connection Audio connection Headphone connection Stereo headphone ON push-button Channel / band filter Star connection STANDARDS Page 7 ENG EQUIPMENT FRONT SYMBOLS SYMBOLS DESCRIPTION SYMBOLS Delta connection DESCRIPTION Receiving antenna SYMBOLS DESCRIPTION Dual sound High voltage Linearization Start push-button Local, manual command Automatic OFF / inhibited
(function) ON / active
(function) Stand-by
(function) Limiter upper threshold Limiter lower threshold Adjusting Max adjusting Min adjusting Adjusting Output connector Frequency adjusting Input connector Clock display
(operation time counter) Fan, blower f 5MHz Xtal adjusting Freq. tuning Amplitude tuning Antenna Band tuning Transmission antenna Mono STANDARDS Page 8 ENG BLOCK DIAGRAM SYMBOLS SYMBOLS DESCRIPTION SYMBOLS DESCRIPTION SYMBOLS DESCRIPTION Linear variability 2-way switch NAND general symbol Automatic adjustment Voltage control electromagnetic relay NOT general symbol Transformer Preemphasis Combiner general sign 2-way power divider 2-way power combiner Rectifier general symbol DC/DC converter
3-way power divider Bridge rectifier Deenphasis Delay line general symbol Coaxial type time delay limiter 4-way power divider Voltage regulator Resistive attenuator 3dB Hybrid White limiter LIM. WHITE REG BIAS Positive peak clipper Sinusoidal oscillator Zener regulator Pad Constant current bias device dB THERMAL SWITCH Fixed phase shifter Thermal switch Negative peak clipper Ex-OR Band-pass filter Circulator OR general symbol Band-stop filter Isolator Switch NOR general symbol Low-pass filter AND general symbol High-pass filter STANDARDS Page 9 ENG BLOCK DIAGRAM SYMBOLS SYMBOLS DESCRIPTION SYMBOLS DESCRIPTION SYMBOLS DESCRIPTION Divider by n DC amplifier Optical amplifier f f/n f/n f FI RF OL RF FI OL f V Multiplier by n Differential comparator Mixer general symbol Phase comparator Up-converter from IF to RF Down-converter from RF to IF Voltage / frequency converter Directional coupler Double directional coupler Directional coupler with double detector Detector amplifier P. SYNC CLAMP Lamped to the syncrhronizing signal peak Schmitts trigger Amplitude linearity precorrector Amplitude limiter without distortion Equalizer general sign Detector Amplitude equalizer Peak detector To rise to cubical power X3 X Amplifier general symbol Multistage amplifier A T RF Phase equalizer Propagation time equalizer Laser diode electrical-
optical transmitter Optical-electrical receiver RF STANDARDS Page 10 ENG ABBREVIATIONS AND ACRONYMS AC ALC BDA BTS DC DCS EGSM EMC FET GSM GSM-R HPA IF IP3 LNA MMIC MS MTBF MU NF OMC OMT PC PEP PLL PSTN RAM RF RL RU SAW SIM SPV TTL UMTS UPS VCO Alternating Current Automatic Level Control Bi-Directional Amplifier Base Transceiver Station Direct Current Digital Cellular System Enhanced Global System for Mobile Communications Electro-Magnetic Compatibility Field-Effect Transistor Global System for Mobile Communications GSM - Railway High Power Amplifier Intermediate Frequency Third order Intercept Point Low Noise Amplifier Monolithic Microwave Integrated Circuit Mobile Station Mean Time Between Failures Master Unit Noise Figure Operation and Maintenance Center Operation and Maintenance Terminal Personal Computer Peak Envelope Power Phase-Locked Loop Public Switched Telephone Network Random Access Memory Radio Frequency Return Loss Remote Unit Surface Acoustic Wave Subscriber Identity Module Supervision Transistor, Transistor, Logic Universal Mobile Telecommunications System Uninterruptible Power Supply Voltage Controlled Oscillator ABBREVIATIONS AND ACRONYMS
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2008-12-18 | 851 ~ 869 | TNB - Licensed Non-Broadcast Station Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2008-12-18
|
||||
1 | Applicant's complete, legal business name |
Radio Frequency Systems Inc
|
||||
1 | FCC Registration Number (FRN) |
0009012410
|
||||
1 | Physical Address |
29 Research Parkway
|
||||
1 |
Wallingford, Connecticut 06492
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
g******@ict.cetecom.de
|
||||
1 | TCB Scope |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
IWD
|
||||
1 | Equipment Product Code |
WINS-3900004
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
P****** C********
|
||||
1 | Title |
Senior RF Engineer
|
||||
1 | Telephone Number |
602-7********
|
||||
1 | Fax Number |
203-8********
|
||||
1 |
p******@rfsworld.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | TNB - Licensed Non-Broadcast Station Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | SMR800 / iDEN Pico-repeater | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Power listed is peak conducted. Users and installers must be provided with antenna installation and transmitter operating conditions for satisfying RF exposure compliance. Downlink (indoor) grant conditions. The antenna used for this transmitter is fixed-mounted on indoor permanent structures providing a separation distance of at least 20 cm from all persons during normal operation. The maximum radiated output power must satisfy the MPE Categorical Exclusion Requirements of 2.1091. RF exposure compliance may need to be addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of 1.1307(b)(3). Uplink/Downlink (outdoor) grant conditions. The antenna used for this transmitter is fixed-mounted on outdoor permanent structures. RF exposure compliance is addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of 1.1307(b)(3). | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
CTC advanced GmbH (former CETECOM ICT Services )
|
||||
1 | Name |
G**** S********
|
||||
1 | Telephone Number |
49-68********
|
||||
1 | Fax Number |
49-68********
|
||||
1 |
t******@ctcadvanced.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 9 | 806 | 824 | 0.036 | Amp | DXW | ||||||||||||||||||||||||||||||||||
1 | 2 | 9 | 806 | 824 | 0.037 | Amp | GXW | ||||||||||||||||||||||||||||||||||
1 | 3 | 9 | 851 | 869 | 0.039 | Amp | DXW | ||||||||||||||||||||||||||||||||||
1 | 4 | 9 | 851 | 869 | 0.035 | Amp | GXW |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC