TB8100 base station Specifications Manual MB8100-00-00-742 June 2004
Tait Contact Information Tait Radio Communications http:// www.taitworld.com Corporate Head Office New Zealand Tait North Asia Tait Electronics Ltd P.O. Box 1645 Christchurch New Zealand E-mail: info@taitworld.com Website: http://www.taitworld.com Technical Support: E-mail: support@taitworld.com Website: http://support.taitworld.com Tait North America Regional Head Office - United States of America Tait North America Inc. E-mail: usa@taitworld.
Contents Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Scope of Manual. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Enquiries and Comments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Updates of Manual and Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Copyright. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Management Unit Specifications . . . . . . . . . . . . . . . . . . . . . . . 33 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Input - AC Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Input - DC Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Output - AC and DC Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Preface Scope of Manual Welcome to the TB8100 base station system Specifications Manual. This manual provides general, performance and physical specifications for the TB8100 5W, 50W and 100W base station systems. Enquiries and Comments If you have any enquiries regarding this manual, or any comments, suggestions and notifications of errors, please contact Technical Support (refer to “Tait Contact Information” on page 2).
Associated Documentation TB8100 Installation and Operation Manual. TB8100 Installation Guide (a subset of the Installation and Operation Manual). TB8100 Service Manual. TB8100 Service Kit and Alarm Center User’s Manuals and online Help. TB8100 Calibration Kit User’s Manual and online Help. Technical notes are published from time to time to describe applications for Tait products, to provide technical details not included in manuals, and to offer solutions for any problems that arise.
1 System Specifications This chapter provides specifications pertaining to the TB8100 base station system. You will find the specifications for individual modules in separate chapters in this manual. The performance figures given in the power and current consumption specifications are typical figures based on using the equipment listed in the table below. The test frequency used was 475MHz.
Transmit Power and Current Consumption - 240VAC Input A VA W Minimum RF Output Power (1W) 50% RF Output Power (2.5W) Maximum RF Output Power (5W) 480mA 490mA 490mA 115VA 118VA 118VA 30W 37W 41W Minimum RF Output Power (5W) 50% RF Output Power (25W) Maximum RF Output Power (50W) 550mA 650mA 740mA 133VA 155VA 177VA 66 W 102 W 132 W Minimum RF Output Power (10W) 50% RF Output Power (50W) Maximum RF Output Power (100W) 640mA 870mA 1.
Transmit Power and Current Consumption - AC Input Voltage Extremes A VA W 530mA 540mA 45VA 142VA 42W 40W 1.6A 730mA 139VA 194VA 138W 131W 2.9A 1.0A 243VA 274VA 242W 229W 5W BSS* 85VAC 264VAC *at 5W RF output power 50W BSS* 85VAC 264VAC *at 50W RF output power 100W BSS* 85VAC 264VAC *at 100W RF output power Transmit Power and Current Consumption - 12.5VDC Input A W Minimum RF Output Power (1W) 50% RF Output Power (2.5W) Maximum RF Output Power (5W) 1.8A 2.2A 2.
Transmit Power and Current Consumption - DC Input Voltage Extremes A W 2.9A 2.1A 30W 33W 11.7A 8.3A 123W 128W 21.7A 15.0A 228W 232W 5W BSS* 10.5VDC 15.5VDC *at 5W RF output power 50W BSS* 10.5VDC 15.5VDC *at 50W RF output power 100W BSS* 10.5VDC 15.5VDC *at 100W RF output power Receive Power and Current Consumption The specifications in this section refer to a BSS operating in receive mode with an input voltage of 12.5VDC. A W 1.1A 1.0A 13.9W 12.5W 745mA 720mA 9.3W 9.0W 400mA 5.
Receive Power and Current Consumption (Continued) A W 160mA 122mA 109mA 98mA 2.0W 1.52W 1.36W 1.23W Deep Sleep Mode* 200ms Receiver Cycling 500ms Receiver Cycling 1s Receiver Cycling 5s Receiver Cycling *with power save control panel and standby power supply card Dimensions and Weight Dimensions Height Width Length 176.8mm (7in) 482.6mm (19in) Subrack Only Including Front Panel 385mm (15.2in) 410mm (16.
System Specifications TB8100 Specifications Manual © Tait Electronics Ltd June 2004
2 Reciter Specifications This chapter provides specifications pertaining to the receiver and exciter circuitry within the reciter module. However, the transmitter RF specifications which pertain to the combination of exciter and power amplifier are given in “Transmitter RF Section” on page 29. The performance figures given in these specifications are applicable only to equipment operating as an integral part of a TB8100 base station.
Identifying the Reciter You can identify the model and hardware configuration of a reciter by referring to the product code printed on a label on the rear panel. The meaning of each character in the product code is explained in the table below. Note This explanation of reciter product codes is not intended to suggest that any combination of features is necessarily available in any one reciter.
General Number of Channels 255 Supply Voltage Operating Voltage Standard Test Voltage Polarity Polarity Protection 12VDC to 29.
Receiver RF Section Frequency Bands B Band H Band 136MHz to 174MHz 400MHz to 520MHz Frequency Sub-bands B2 B3 136MHz to 156MHz 148MHz to 174MHz H4 380MHz to 420MHz H1 H2 H3 400MHz to 440MHz 440MHz to 480MHz 470MHz to 520MHz Type triple conversion superheterodyne; first conversion is analogue, second is hybrid, and third is digital Frequency Increments B Band H Band Switching Range 3.125kHz and 2.5kHz 5kHz and 6.25kHz >2% of the centre frequency* *e.g. ±1.
Receiver RF Section (Continued) IF Stages - H Band Frequencies Analogue Digital 70.1MHz 9.9MHz and 0Hz Analogue IF Bandwidth 20kHz, –4dB Digital IF Bandwidths Narrow Bandwidth Mid Bandwidth Wide Bandwidth 8.8kHz, –3dB 12.0kHz, –3dB 14.0kHz, –3dB De-emphasised Response Centre of Switching Range Edge of Switching Range <–119dBm (0.25µV) at 25°C** <–117dBm (0.32µV) at 25°C** Flat Response Centre of Switching Range Edge of Switching Range <–117.5dBm (0.30µV) at 25°C** <–115.5dBm (0.
Receiver RF Section (Continued) Selectivity B Band Narrow Bandwidth Wide Bandwidth 50dB (ANSI/TIA-603-B)* 89dB (ETSI)* 87dB (ANSI/TIA-603-B)* H Band Narrow Bandwidth Mid Bandwidth Wide Bandwidth 46dB (ANSI/TIA-603-B)* 85dB (ETSI)* 85dB (ETSI)* 82dB (ANSI/TIA-603-B)* *up to 5dB degradation at extremes of switching range and temperature Spurious Response Attenuation ≥100dB (ANSI/TIA)* ≥90dB (ETSI) *AGC switched off in H band reciter Intermodulation Response Attenuation Narrow Bandwidth Mid Bandwidth** W
Receiver Audio Section - General Outputs Available speaker output via control panel balanced and unbalanced line outputs via system interface PCB Frequency Response flat or de-emphasised (750µs) De-emphasised Response Bandwidth Response 300Hz to 2.55kHz (NB) 300Hz to 3.4kHz (MB)* 300Hz to 3.4kHz (WB) within +1, –3dB of a –6dB/octave de-emphasis curve (ref. 1kHz) *H band only Flat Response Bandwidth Response Balanced Audio Unbalanced Audio 67Hz to 2.55kHz (NB) 67Hz to 3.4kHz (MB)* 67Hz to 3.
Receiver Audio Section - CTCSS High Pass (Subaudible) Filter Bandwidth Response Hum and Noise** **1kHz at 60% system deviation, CTCSS at 10% system deviation 300Hz to 2.55kHz (NB) 300Hz to 3.4kHz (MB)* 300Hz to 3.4kHz (WB) within +1, –3dB of level at 1kHz 30dB minimum at 250.3Hz 35dB typical (67Hz to 240Hz) *H band only Tone Detect Tone Squelch Opening better than 6dB SINAD 3dB SINAD at 250.
Exciter RF Section Frequency Bands B Band H Band 136MHz to 174MHz 400MHz to 520MHz Frequency Sub-bands B2 B3 136MHz to 156MHz 148MHz to 174MHz H4 H1 H2 H3 Modulation Type 380MHz to 420MHz 400MHz to 440MHz 440MHz to 480MHz 470MHz to 520MHz FM Frequency Increments B Band H Band Switching Range - B Band 3.125kHz and 2.5kHz 5kHz and 6.25kHz >8MHz* *i.e. >±4MHz from the centre frequency Switching Range - H Band >2% of the centre frequency* *i.e. ±4MHz from the centre frequency at 400MHz, and ±5.
Exciter Audio Section - Inputs (Continued) Balanced Line Input Input Level Range* Impedance –20dBm to +10dBm 600Ω balanced *60% modulation at 1kHz Unbalanced Line Input Input Level Range Impedance 0.
Exciter Audio Section - CTCSS Standard Tones all 37 ANSI/TIA group A, B and C tones plus 13 commonly used tones Frequency Error* 0.08% maximum *from ANSI/TIA tones Generated Tone Distortion 1.2% maximum Generated Tone Flatness flat across 67Hz to 250.3Hz to within 1dB Modulation Level adjustable Modulated Distortion <5% External Reference Input Frequencies* 10MHz or 12.8MHz *One frequency must be specified by the Service Kit.
Compliance Standards (Continued) Environmental Low Pressure (Altitude) Humidity Vibration Shock 24 Reciter Specifications MIL-STD-810F 500.4 Proc 2 IEC60068-2-30 MIL-STD-810F 514.5 Proc 1 MIL-STD-810F 516.
3 Power Amplifier and Transmitter Specifications This chapter provides specifications pertaining to the power amplifier as a separate module. It also includes a number of transmitter RF specifications which pertain to the combination of power amplifier and exciter. The performance figures given in these specifications are applicable only to equipment operating as an integral part of a TB8100 base station.
Identifying the PA You can identify the model and hardware configuration of a PA by referring to the product code printed on labels on the heatsink and rear of the cover. The meaning of each character in the product code is explained in the table below. Note This explanation of PA product codes is not intended to suggest that any combination of features is necessarily available in any one PA.
General Supply Voltage Operating Voltage Standard Test Voltage Polarity Polarity Protection Supply Current Standby Transmit* 5W PA @ 5W 50W PA @ 50W 100W PA @ 100W 26.5VDC to 29.5VDC 28VDC negative earth only reverse polarity diode Maximum Typical 50mA 42mA 600mA 5A 10A 530mA 4.2A 8.
Power Amplifier RF Section Frequency Bands B Band H Band 136MHz to 174MHz 400MHz to 520MHz Input Power 380MHz to 520MHz +11dBm ±2dB Output Power 5W PA Rated Power Range of Adjustment 5W 1W to 5W in 1W steps 50W PA Rated Power Range of Adjustment 50W 5W to 50W in 1W steps 100W PA Rated Power Range of Adjustment 100W 10W to 100W in 1W steps Output Power Accuracy* ±0.
Power Amplifier RF Section (Continued) Protection Temperature power foldback to 10% if RF power devices exceed safe operating conditions Current power foldback and shutdown if RF power devices exceed safe operating currents Supply Voltage power foldback to 10% when supply voltage is 24V to 26V and 30V to 32V; shutdown when supply voltage is <24V and >32V VSWR power foldback to 10% at VSWR extremes; continuous analogue power foldback to maintain 100% duty cycle into mismatched loads Transmitter RF Se
Transmitter RF Section (Continued) Radiated Spurious Emissions Transmit Standby <–36dBm to 1GHz <–30dBm 1GHz to 4GHz <–57dBm to 1GHz <–47dBm 1GHz to 4GHz Conducted Spurious Emissions Transmit Standby Transmitter Switching <–36dBm to 1GHz <–30dBm 1GHz to 12.75GHz <–57dBm to 1GHz <–47dBm 1GHz to 12.75GHz complies with EN 300 113-1 v1.4.1 and EN 300 113-2 (03/2001) Transmit Key Time* Key Up 5W PA 50 and 100W PAs Key Up Debounce Timer Key Down 5W PA 50 and 100W PAs Key Down Debounce Timer ≤2.
Compliance Standards Where applicable, this equipment has been tested and approved to the following standards. Safety BS EN 60950-1:2002 ANSI/UL Std. 60950 3rd edition CAN/CSA-C22.2 No. 60950-00 3rd edition AS/NZS 60950 and ACATS001 EMC ETSI EN 301 489 V1.4.1 (2002-08) CFR 47 Part 15 Level B1 RF EN 300 086-2:V1.2.
Power Amplifier and Transmitter Specifications TB8100 Specifications Manual © Tait Electronics Ltd June 2004
4 Power Management Unit Specifications This chapter provides specifications pertaining to the power management unit (PMU) as a separate module. The performance figures given in these specifications are applicable only to equipment operating as an integral part of a TB8100 base station. These performance figures are minimum figures, unless otherwise indicated, for equipment operating at standard room temperature (+22°C to +28°C [+71.6°F to +82.
General Operating Temperature Range –30°C to +60°C (–22°F to +140°F) ambient temperature* *ambient temperature is defined as the temperature of the air at the intake to the cooling fan Cooling forced air over heatsink via fan mounted in subrack Front Panel LED Indicators Green - Steady Green - Flashing Red - Flashing Parameters Monitored by PMU Microprocessor PMU operating correctly PMU not operating, bootloader in progress one or more alarm conditions present mains input good signal DC input voltage P
Input - AC Module (Continued) General Efficiency at Rated Output* Input-to-chassis Isolation Input-to-output Isolation Output-to-chassis Isolation 86% 1500VAC, 50Hz, 1 minute 3000VAC, 50Hz, 1 minute 500VAC, 50Hz, 1 minute *at 220VAC Input - DC Module Input - 12V System Factory-set Limits Minimum Run Voltage Minimum Turn-on Voltage Maximum Run Voltage Maximum Turn-on Voltage User-programmable Limits*+ Low Battery Shutdown Voltage Low Battery Restart Voltage (after shutdown) User-programmable Alarms* Low B
Output - AC and DC Modules High Current Output for PA Voltage Current Regulation Ripple and Noise* Ripple and Noise rms Transient Response on 28V Loadstep** 28V 14A maximum ±0.5% 50mV pp 10mV rms 2% overshoot and recover within 0.6ms *100MHz bandwidth **10% to 100% loadstep Low Current Output for Reciter Voltage Current Regulation Ripple and Noise* Ripple and Noise rms 28.6V 26.5V in hysteresis mode 1.2A maximum ±3.
Optional 10W Standby Output - DC Module (Continued) General Efficiency at Rated Output Input-to-output Isolation Control 86% 1000VAC, 50Hz, 1 minute shutdown signal (isolated) Optional 40W Auxiliary Power Supply The output from this optional power supply PCB may also be used to trickle-charge a 12V battery. DC Input Voltage 28V ±15% DC Output* Voltage Current Regulation Ripple and Noise** Ripple and Noise rms Zero Load Ripple 13.
Connections (Continued) DC Input* Connector Type Flexible Wire Size Current Rating M6 screw into threaded fitting on bus bar 2AWG for a length of 1.5m to 2m (5ft to 6.5ft) (typical)** 50A **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 *battery DC Output - 28V High Current Connector Type Flexible Wire Size Current Rating Phoenix MVSTBR2.5HC/2-ST/5.
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.
Figure 7.
Figure 7.3 Dual 5 or 50W Base Station Inputs and Outputs - Rear View b c b c j 1) i j reciter 2 b c d e f d i reciter 1 d h PA 2 system interface connector external reference frequency input RF output –VDC input +VDC input Figure 7.
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) 7.2 c RS-232 programming port 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.
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.
Pin 5 6 7 8 1 2 3 4 rear view 7.3 Description 1 +V output 2 +V output 3 +V output 4 +V output 5 ground 6 ground 7 ground 8 ground Links 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.
7.4 System Connections The reciter can be fitted with an optional system interface PCB which provides the links between the reciter’s internal circuitry and external equipment. This PCB is securely mounted to the reciter’s 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.
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.
Isolated 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. Isolated E&M 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.
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. TaitNet Pin B C D E F G H I J 1) 1! 1@ 1# 1$ 1% rear view 7.
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.