5 Installation This chapter describes how to install the TB8100 BSS in a standard 19 inch rack or cabinet. It also provides some general information on safety precautions and site requirements. We recommend that you read the entire chapter before beginning the installation. 5.1 Personal Safety Lethal Voltages Warning!! The PMU contains voltages that may be lethal. Refer to the ratings label on the rear of the module. The TB8100 BSS must be installed so that the rear of the PMU is located in a service access area. Disconnect the mains IEC connector and wait for five minutes for the internal voltages to self-discharge before dismantling. The AC power on/off switch does not isolate the PMU from the mains. It breaks only the phase circuit, not the neutral. The PMU should be serviced only by qualified technicians. All servicing should be carried out only when the PMU is powered through a mains isolating transformer of sufficient rating. We strongly recommend that the mains power to the whole of the repair and test area is supplied via an earth leakage circuit breaker. Explosive Environments Warning!! Do not operate TB8100 BSS equipment near electrical blasting caps or in an explosive atmos-
phere. Operating the equipment in these envi-
ronments is a definite safety hazard. Proximity to RF Transmissions Do not operate the transmitter when someone is standing within 90cm (3ft) of the antenna. Do not operate the transmitter unless you have checked that all RF connectors are secure. TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Installation 59 High Temperatures Take care when handling a PMU or PA which has been operating recently. Under extreme operating conditions (+60C [+140F] ambient air temperature) or high duty cycles the external surfaces of the PMU and PA can reach temperatures of up to +80C (+176F). 5.2 Equipment Safety ESD Precautions Important This equipment contains devices which are susceptible to damage from static charges. You must handle these devices carefully and according to the procedures described in the manufacturers data books. We recommend you purchase an antistatic bench kit from a reputable manufacturer and install and test it according to the manufacturers instructions. Figure 5.1 shows a typical antistatic bench set-up. You can obtain further information on antistatic precautions and the dangers of electrostatic discharge (ESD) from standards such as ANSI/ESD S20.20-1999 or BS EN 100015-4 1994. Figure 5.1 Typical Antistatic Bench Set-up conductive wrist strap dissipative rubber bench mat common point ground
(building ground or mains ground via 1M ohm series resistor) Aerial Load The TB8100 BSS equipment has been designed to operate safely under a wide range of aerial loading conditions. However, we strongly recommend that the transmitter should always be operated with a suitable load to prevent damage to the transmitter output power stage. 60 Installation TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Equipment Grounding To ensure safe operation the TB8100 BSS equipment must be correctly grounded as described in these installation instructions. Installation and Servicing Personnel The TB8100 BSS should be installed and serviced only by qualified personnel. 5.3 Regulatory Information Distress Frequencies The 406 to 406.1MHz frequency range is reserved worldwide for use by Distress Beacons. Do not program transmitters to operate in this frequency range. FCC Compliance This device complies with part 15 of the FCC Rules. Operation is subject to the condition that this device does not cause harmful interference. Unauthorised Modifications Any modifications you make to this equipment which are not authorised by Tait Electronics Ltd may invalidate your compliance authoritys approval to operate the equipment. 5.4 Environmental Conditions Operating Temperature Range The operating temperature range of the TB8100 BSS is 30C to +60C
(22F to +140F) ambient temperature. Ambient temperature is defined as the temperature of the air at the intake to the cooling fans. Humidity The humidity should not exceed 95% relative humidity through the specified operating temperature range. TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Installation 61 Dust and Dirt For uncontrolled environments, the level of airborne particulates must not exceed 100g/m3. 5.5 Grounding and Lightning Protection Electrical Ground The TB8100 BSS modules are grounded by physical contact between the module case and the subrack. To ensure a good ground connection you must tighten each module retaining clamp securely (refer to Final Reassembly on page 81 for the correct torque setting). A threaded grounding connector is provided on the rear of the subrack for connection to the site ground point (refer to Connection on page 83 for more details). Lightning Ground It is extremely important for the security of the site and its equipment that you take adequate precautions against lightning strike. While it is outside the scope of this manual to provide comprehensive information on this subject, the following guidelines apply:
install a suitable lightning rod at the top of the tower and connect it to a secure ground point with appropriate conductors and connectors position site buildings and equipment within the cone of protection provided by the grounded tower protect all cables entering the site to prevent lightning energy from entering site buildings. 5.6 Recommended Tools It is beyond the scope of this manual to list every tool that an installation technician should carry. However, the following tools are specifically required for installing the TB8100 BSS:
Pozidriv PZ3 screwdriver for the M6 screws used to secure the subrack to the rack or cabinet, and also for the DC input terminals on the PMU Pozidriv PZ2 screwdriver for the M4 screws used to secure the module retaining clamps 0.25in or 6mm flat blade screwdriver for the fasteners used to secure the front panel to the subrack 8mm AF spanner for the SMA connectors. 62 Installation TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 You can also obtain the TBA0ST2 tool kit from your nearest Tait Dealer or Customer Service Organisation. It contains the basic tools needed to install, tune and service the TB8100 BSS. 5.7 Ventilation Always ensure there is adequate ventilation around the TB8100 BSS. Do not operate it in a sealed cabinet. You must keep the ambient temperature within the specified range, and we strongly recommended that you ensure that the cooling airflow is not restricted. Important The cooling fans are mounted on the front panel and will only operate when the panel is fitted correctly to the front of the subrack. To ensure adequate airflow through the BSS, do not operate it for more than a few minutes with the front panel removed (e.g. for servicing purposes). Ambient Air Temperature Sensor The ambient air temperature reading for the TB8100 BSS is provided by the ambient air temperature sensor PCB b fitted to the PA control PCB. The sensor PCB is inserted through slots in the control PCB and heatsink to be positioned between the heatsink fins. Important b If the sensor PCB is to provide accurate ambient tempera-
ture readings, it must have forced airflow and must not come into contact with the metal of the heatsink fins. Do not stack PAs with the fins together. It is possible for the fins on one heatsink to slide between the fins on the other heatsink. This can damage the sensor PCB, and pos-
sibly result in the heatsink fins becoming locked together. TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Installation 63 Cabinet and Rack Ventilation Refer to Figure 5.2 on page 65. The cooling airflow for the TB8100 BSS enters through the front panel and exits at the rear of the subrack. For optimum thermal performance, the heated air that has passed through a BSS must not be allowed to re-enter the air intakes on the front panel. Any space at the front of the cabinet not occupied by equipment should be covered by a blanking panel. To allow enough cooling airflow through a cabinet-mounted BSS, we recommend the following:
an area of at least 150cm2 (23in2) of unrestricted ventilation slots or holes in front of the air intakes for the fans for each subrack; for example, thirty 6x85mm (0.25x3.3in) slots will allow the recommended airflow a vent in the top of the cabinet with an area of approximately 150cm2
(23in2) per subrack, or a similar area of ventilation per subrack at the rear of the cabinet behind each subrack a 2U gap at the top of the cabinet. Note The ventilation opening must be unrestricted. If the slots or holes are covered with a filter, mesh or grille, the open area must be increased to allow the same airflow as an unrestricted opening. The maximum ambient temperature entering the cabinet must not exceed
+60C (+140F). If the TB8100 BSS is installed in a rack or cabinet with other equipment with different ventilation requirements, we recommend that the TB8100 be positioned below this equipment. The TB8100 BSS does not require auxiliary extractor fans mounted in the top of the cabinet. If your cabinet is already fitted with fans, the following procedures apply:
if there are six or more 120mm (4.75in) fans, each capable of extracting 160m3 per hour (94.2CFM), they must run continuously if there are fewer than six fans, you must remove them and ensure the vent in the top of the cabinet has an area of approximately 150cm2
(23in2) per subrack. If you have any other configuration, the performance of your system will depend on how closely you comply with the TB8100 BSS airflow requirements described above. Auxiliary Extractor Fans 64 Installation TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Figure 5.2 Typical Cabinet Ventilation Requirements 20cm
(8in) side view e
17.5cm
(7in) b 2U c d c top view front view c c b ventilation slots c blanking panels d airflow entry e airflow exit TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Installation 65 5.8 Installing the Base Station System Caution A TB8100 subrack complete with modules can weigh up to 28kg (62lb), or up to 30kg (66lb) com-
plete with packaging. We recommend that, once the equipment is out of the carton, you remove the modules from the subrack before moving the equip-
ment again. Otherwise, have another person help you with the lifting. In all cases follow safe lifting practices. Unpacking the Equipment Unpacking the TB8100 BSS The TB8100 BSS is packed in a strong corrugated cardboard carton with top and bottom foam cushions. To prevent personal injury and damage to the equipment, we recommend that two people unpack the BSS. Figure 5.3 Unpacking the TB8100 BSS b c d e g f h i 1. 2. Cut the tape securing the flaps at the top of the carton and fold them flat against the sides b. Rotate the carton carefully onto its side c and then onto its top d, ensuring that none of the flaps is trapped underneath. 66 Installation TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 3. 4. Slide the carton upwards over the foam cushions and lift it away e. Remove the cushion from the bottom of the BSS f. Rotate the BSS and cushion carefully over the rear of the BSS g so that the BSS is the right way up with the cushion on top h. Remove the cushion from the top of the BSS i. Disposal of Packaging If you do not need to keep the packaging, we recommend that you recycle it according to your local recycling methods. The foam cushions are CFC-
and HCFC-free and may be burnt in a suitable waste-to-energy combustion facility, or compacted in landfill. Mounting the Subrack Caution We recommend that you remove the modules from the subrack before lifting it (refer to Replacing Modules on page 71), or have another person help you with the lifting. Figure 5.4 Subrack Mounting Points b front view c rear view b main mounting holes - front c auxiliary mounting holes - rear TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Installation 67 1. 2. Remove the front panel, as described in Preliminary Disassembly on page 71. Fit the subrack into the cabinet or rack and secure it firmly with an M6 screw, flat and spring washer in each of the four main mounting holes b, as shown in Figure 5.4 on page 67. Note If you need extra mounting security, there are additional mount-
ing holes c provided at the rear of the subrack for auxiliary sup-
port brackets. Auxiliary Support Bracket TBA2140 auxiliary support brackets can be fitted to the rear of the TB8100 subrack to provide additional mounting security. Figure 5.5 below shows a standard TBA2140 bracket b fitted in a typical Tait Electronics cabinet c. If you are not using a Tait cabinet, you may have to make your own brackets to suit your installation. Figure 5.5 Auxiliary Support Bracket b c Important You must fit the auxiliary support brackets if you intend to transport a cabinet fitted with a fully built-up TB8100 BSS. We also recommend that you fit the brackets under the following conditions:
when the installation is in an area prone to earthquakes when third party equipment is installed hard up underneath the TB8100 BSS subrack. 68 Installation TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Optional Slide Mounting Rails You can also use TBA2141 slide mounting rails b when mounting the TB8100 BSS in a cabinet, as shown in Figure 5.6 below. These rails will support the BSS while you slide it into the cabinet. However, you must still secure the BSS to the cabinet with four M6 screws through the main mounting holes on the front of the subrack, as shown in Figure 5.4 on page 67. Figure 5.6 Optional Slide Mounting Rail - Rear View c b Important The slide mounting rails are not suitable for transporting a cabinet fitted with a fully built-up TB8100 BSS. In this case, you must also fit the TBA2140 auxiliary support brackets to the upper set of rear mounting holes c. Cabling General We recommend that you try to route all cables to and from the TB8100 BSS along the side of the cabinet so the cooling airflow is not restricted. DC Power Cabling DC power cables should be well supported so that the terminals on the PMU and on the ends of the cables do not have to support the full weight of the cables. TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Installation 69 Figure 5.7 below shows two recommended methods of securing these cables to prevent straining either set of terminals. Figure 5.7 DC Power Cabling secure the cables to the cabinet to support their weight 70 Installation TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 7 Connection Once the TB8100 BSS hardware is installed, you need to connect the individual modules to each other, and to any ancillary equipment required in your system. This chapter provides information on all the inputs and outputs available on the TB8100 BSS. 7.1 Overview of Inputs and Outputs This section identifies the main input and output connections for the TB8100 BSS. Figure 7.1 below identifies the connections at the front of a dual base station, and Figure 7.3 on page 85 identifies those at the rear. Figure 7.2 on page 84 identifies the connections at the front of a single 100W base station. Figure 7.4 on page 85 and identifies the connections on the control panel. Refer to the following sections in this chapter for more details on these connections. Figure 7.1 Dual 5 or 50W Base Station Inputs and Outputs - Front View b c d e f g h g h efd d di di PMU PA 1 PA 2 reciter 1 reciter 2 b 28VDC high current output for PA f 28VDC high current input cable from PMU c 28VDC low current output for reciter g RF output to PA d system control bus e RF input from reciter h 28VDC low current input from PMU i DC output (for optional reciter fan only) TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Connection 83 Figure 7.2 Single 100W Base Station Inputs and Outputs - Front View b c d e f i h fg PMU PA reciter b 28VDC high current output for PA f system control bus c 28VDC low current output for reciter g DC output (for optional reciter fan only) d RF output to PA h 28VDC high current input cable from PMU e 28VDC low current input from PMU i RF input from reciter 84 Connection TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Figure 7.3 Dual 5 or 50W Base Station Inputs and Outputs - Rear View b bc c d fe j 1) i j i d h g reciter 2 reciter 1 PA 2 PA 1 PMU b system interface connector g auxiliary 12VDC output c external reference frequency input h AC mains input d RF output e VDC input f +VDC input i RF input j auxiliary 12VDC input for system interface 1) subrack ground connector Figure 7.4 Standard Control Panel Inputs and Outputs b c d b DC outputs for fans mounted on front panel;
also used for fan rotation detectors (if fitted) d RS-232 programming port c microphone connector TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Connection 85 Figure 7.5 Power Save Control Panel Outputs b c b DC outputs for fans mounted on front panel;
also used for fan rotation detectors (if fitted) c RS-232 programming port 7.2 Power Supply Connections AC Power The TB8100 PMU is designed to accept a mains input of 88 to 264VAC at 45 to 65Hz. We recommend that a standard 3-wire grounded outlet is used to supply the AC power. The socket-outlet must be installed near the equipment and must be easily accessible. This outlet should be connected to an AC power supply capable of providing a maximum of 600W. The requirements of two typical AC supplies are given in the following table. Nominal Supply Current Requirement Circuit Breaker/Fuse Rating 115VAC 230VAC 8A 4A Your TB8100 BSS should come supplied with a power supply cord to connect the male IEC connector on the PMU to the local AC supply. The pins of the IEC connector on the PMU are identified at right. 10A 6A rear view neutral ground phase DC Power The TB8100 PMU is designed to accept a DC input of 10.3 to 15.5VDC with negative or positive ground. There is a minimum DC start-up threshold to prevent damaging a battery which has little capacity left. You must connect the DC supply from the battery to the PMU via a fuse or DC-rated circuit breaker with a rating of 60A. The DC input leads should be of a suitable gauge to ensure less than 0.2V drop at maximum load over the required length of lead. 86 Connection TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Terminate and insulate the DC input leads so they are protected from accidentally shorting to the subrack if the PMU is removed before the leads are disconnected. Figure 7.6 Recommended DC Power Connection Circuit Breaker or Fuse PMU Battery Reciter Auxiliary DC Input The system interface PCB in the reciter has an auxiliary DC input connector. DC from the auxiliary DC output on the PMU (see PMU Auxiliary DC Output below) can be supplied to the +AUX_V pin on the system interface connector via this input. The pin allocations for the auxiliary DC input on the system interface PCB are given in the following table. Note that pins 1 & 3 and pins 2 & 4 on this connector are linked. Refer to System Connections on page 89 for the pin allocations for +AUX_V on each system interface PCB. Pin Description Links 3 4 1 2 rear view 1 2 3 4
+V input ground
+V input ground The DC output from the PMU is 12VDC. Although this power output is isolated, the negative side of the supply is grounded on the system interface PCB to give a +V output. The PMU can provide an auxiliary DC output when it is fitted with the optional 40W auxiliary power supply PCB. This power supply is current limited to 3A and is available on the auxiliary DC output connector on the rear panel. DC from this output can be supplied to the +AUX_V pin on the system interface connector on the reciter via the auxiliary DC input connector on the system interface PCB (see Reciter Auxiliary DC Input above). The pin allocations for the auxiliary DC output on the PMU are given in the following table. Note that pins 1 to 4 and pins 5 to 8 on this connector are linked. PMU Auxiliary DC Output TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Connection 87 Pin Description Links 15 26 37 48 rear view 1 2 3 4 5 6 7 8
+V output
+V output
+V output
+V output ground ground ground ground 7.3 RF Connections The RF input to the TB8100 BSS is via the lower BNC connector on the rear panel of the reciter. The RF output is via the N-type connector on the rear panel of the PA (refer to Figure 7.3 on page 85). We recommend that you use dual-screened coaxial cable such as RG223 for the BNC connections, and RG214 for the N-type connections. 88 Connection TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 7.4 System Connections The reciter can be fitted with an optional system interface PCB which provides the links between the reciters internal circuitry and external equipment. This PCB is securely mounted to the reciters chassis and is connected to the control PCB with a flexible connector. The system interface PCB is fitted with industry-standard connectors and several standard types are available for different applications. The circuitry on the system interface PCB provides additional signal processing so that the outputs meet standard system requirements. It also enables the PCB to identify itself to the reciter control circuitry. The system interface PCB is removable, which makes it possible to change the application of a reciter by removing one type of PCB and fitting another. Only one system interface PCB can be fitted to a reciter at any one time. This section provides details on the system interface PCBs available at the time of publication. Other types may be developed for future applications. Figure 7.7 System Interface PCB system interface PCB*
control PCB
*standard system interface PCB shown Standard The standard system interface PCB is fitted to reciters bearing the product code TBA4xxx-0A0x or TBA5xxx-0A0x. If purchased separately, it has the product code TBA10A0. It provides:
non-isolated 600 balanced audio I/O high impedance unbalanced audio I/O Tx key Rx gate RSSI Tx relay TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Connection 89 digital I/O. It is fitted with a 25-way female D-range connector and an auxiliary DC input connector. The pin allocations are listed in the table below. Pin Signal Name Signal Type Notes B C D E F G H I J 1) 1!
1@
1#
1$
1%
1^
1&
1*
1(
2) 2!
2@
2#
2$
2%
rear view 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Rx line out +
Rx line out Rx audio out ground Tx audio in Tx line in +
Tx line in RSSI Rx gate Tx key digital out 1 digital out 2
+AUX_V digital in 1 digital in 2 digital in 3 digital in 4 digital in 5 digital in 6 digital in 7 digital in 8 digital in 9 digital in 10 Tx relay ground audio output audio output ground audio input non-isolated AC coupled line AC coupled AC coupled audio input AC coupled line DC signal output input output power output open collector open collector input 5V logic output ground open collector 90 Connection TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Isolated Isolated E&M This system interface PCB is fitted to reciters bearing the product code TBA4xxx-0B0x or TBA5xxx-0B0x. If purchased separately, it has the product code TBA10B0. It is the same as the standard model, except that the balanced audio interfaces are galvanically isolated. This system interface PCB is fitted to reciters bearing the product code TBA4xxx-0C0x or TBA5xxx-0C0x. If purchased separately, it has the product code TBA10C0. It provides:
isolated balanced audio I/O opto-isolated keying opto-isolated gate output. It is fitted with a 25-way female D-range connector and an auxiliary DC input connector. The pin allocations are listed in the table below. Pin Signal Name Signal Type Notes B C D E F G H I J 1) 1!
1@
1#
1$
1%
1^
1&
1*
1(
2) 2!
2@
2#
2$
2%
rear view 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Rx line out +
Rx line out Rx audio out audio ground Tx audio in Tx line in +
Tx line in RSSI Rx gate Tx key digital out 1 digital out 2
+AUX_V digital in 1 digital in 2 digital in 3 digital in 4 digital in 5 digital in 6 opto +/
opto /+
relay +/
relay /+
Tx relay ground audio output transformer isolated line audio output ground audio input audio input transformer isolated line DC signal output input output power output open collector open collector input 5V logic isolated keying input isolated gate output output ground open collector TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Connection 91 TaitNet This system interface PCB is fitted to reciters bearing the product code TBA4xxx-0T1x or TBA5xxx-0T1x. If purchased separately, it has the product code TBA10T1. It is designed for use with MPT trunking systems. It is fitted with a 15-way female D-range connector and an auxiliary DC input connector. The pin allocations are listed in the table below. Pin Signal Name Signal Type Notes 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Rx line out +
Rx line out Rx audio out Rx gate Tx key Tx audio in Tx line in +
Tx line in
+AUX_V digital out 3 no connection digital out 1 digital out 2 digital in 1 ground B C D E F G H I J 1) 1!
1@
1#
1$
1%
rear view audio output AC coupled line audio output output input audio input open collector audio input AC coupled line power output output output input ground open collector open collector 5V logic 7.5 Service Kit Connections The TB8100 service kit is connected to the BSS via the RS-232 serial port on the control panel. This port is a 9-way female D-range connector. Use a straight through cable, as supplied with the service kit, to connect your programming computer to the BSS. The pin allocations for the serial port are given in the following table. Note that pins 1, 4 & 6 and pins 7 & 8 are linked. This port is also used for remote connection to the Service Kit or Alarm Center software via a modem or radio modem. Pin Description Links cdef b hj gi front view 1 2 3 4 5 6 7 8 9 not connected receive data transmit data not connected ground not connected not connected not connected not connected 92 Connection TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 7.6 Microphone Connection You can connect a microphone to the TB8100 BSS via the standard RJ45 socket on the control panel. If a standard TB8100 microphone has not been supplied with your BSS, you should use an electret microphone. The pin allocations for the microphone socket are given in the following table. Pin Description 1 2 3 4 5 6 7 8 not connected not connected not connected PTT and hookswitch voice band (microphone) input microphone ground not connected not connected 1 2 3 4 5 6 7 8 front view TB8100 Installation and Operation Manual Tait Electronics Ltd March 2004 Connection 93