TB9300 Base Station/Repeater Specifications Manual

TB9300 Base Station/Repeater Specifications Manual MBC-00009-07 Issue 7 July 2015

Contact Information Tait Communications Corporate Head Office Tait Limited P.O. Box 1645 Christchurch New Zealand For the address and telephone number of regional offices, refer to our website: www.taitradio.com Copyright and Trademarks All information contained in this document is the property of Tait Limited. All rights reserved. This document may not, in whole or in part, be copied, photocopied, reproduced, translated, stored, or reduced to any electronic medium or machine-readable form, without prior written permission from Tait Limited. The word TAIT and the TAIT logo are trademarks of Tait Limited. All trade names referenced are the service mark, trademark or registered trademark of the respective manufacturers. Disclaimer There are no warranties extended or granted by this document. Tait Limited accepts no responsibility for damage arising from use of the information contained in the document or of the equipment and software it describes. It is the responsibility of the user to ensure that use of such information, equipment and software complies with the laws, rules and regulations of the applicable jurisdictions. Enquiries and Comments If you have any enquiries regarding this document, or any comments, suggestions and notifications of errors, please contact your regional Tait office. Updates of Manual and Equipment In the interests of improving the performance, reliability or servicing of the equipment, Tait Limited reserves the right to update the equipment or this document or both without prior notice. Intellectual Property Rights This product may be protected by one or more patents or designs of Tait Limited together with their international equivalents, pending patent or design applications, and registered trade marks: NZ409837, NZ409838, NZ415277, NZ415278, NZ508806, NZ516280/519742, NZ521450, NZ524369, NZ524378, NZ524509, NZ530819, NZ534475, NZ547713, NZ569985, NZ577009, NZ579051, NZ579364, NZ584534, NZ586889, NZ592624, NZ593888, NZ600346, NZ610563, NZ615954, NZ625717, NZ628342, NZ629167, NZ630718, NZ700387, NZ700908, NZ701777, AU2004216984, AU339127, AU339391, AU2010212964, EU000915475-0001, EU000915475-0002, US8301682, US13/542147, US13/896969, US14/ 032876, US14/495334, US62/128101, US62/128129, US640974, US640977, US698339, US702666, US7411461, US7758996, US7937661, US8902804. This product may also be made under license under one or more of the following U.S. Patents: 5,146,497, 5,148,482, 5,164,986, 5,185,795, 5,185,796, 5,271,017, 5,377,229 and 5,502,767. The AMBE+2 voice coding Technology embodied in this product is protected by intellectual property rights including patent rights, copyrights and trade secrets of Digital Voice Systems, Inc. This voice coding Technology is licensed solely for use within this Communications Equipment. The user of this Technology is explicitly prohibited from attempting to decompile, reverse engineer, or disassemble the Object Code, or in any other way convert the Object Code into a human-readable form. Protected by U.S. Patents 5,870,405, 5,826,222, 5,754,974, 5,701,390, 5,715,365, 5,649,050, 5,630,011, 5,581,656, 5,517,511, 5,491,772, 5,247,579, 5,226,084 and 5,195,166. This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit (http://www.openssl.org/). Environmental Responsibilities Tait Limited is an environmentally responsible company which supports waste minimization, material recovery and restrictions in the use of hazardous materials. The European Union s Waste Electrical and Electronic Equipment (WEEE) Directive requires that this product be disposed of separately from the general waste stream when its service life is over. For more information about how to dispose of your unwanted Tait product, visit the Tait WEEE website at www.taitradio.com/weee. Please be environmentally responsible and dispose through the original supplier, or contact Tait Limited. Tait Limited also complies with the Restriction of the Use of Certain Hazardous Substances in Electrical and Electronic Equipment (RoHS) Directive in the European Union. In China, we comply with the Measures for Administration of the Pollution Control of Electronic Information Products. We will comply with environmental requirements in other markets as they are introduced. 2 TB9300 Specifications Manual

Contents Preface..................................................................... 5 Scope of Manual.......................................................... 5 Document Conventions..................................................... 5 Associated Documentation.................................................. 6 Publication Record........................................................ 6 1 Base Station Specifications................................................. 9 1.1 Frequency Bands and Sub-bands........................................ 10 1.2 Power Supply....................................................... 11 AC Input..................................................... 11 DC Input..................................................... 12 Outputs...................................................... 13 Auxiliary Power Supply......................................... 13 1.3 Power and Current Consumption........................................ 14 1.3.1 120VAC Input................................................ 15 Transmit..................................................... 15 Standby...................................................... 16 1.3.2 230VAC Input................................................ 17 Transmit..................................................... 17 Standby...................................................... 18 1.3.3 12VDC Input................................................. 19 Transmit..................................................... 19 Standby...................................................... 20 1.3.4 24VDC Input................................................. 21 Transmit..................................................... 21 Standby...................................................... 22 1.3.5 48VDC Input................................................. 23 Transmit..................................................... 23 Standby...................................................... 24 1.4 Receiver............................................................ 25 General...................................................... 25 Digital....................................................... 26 1.5 Transmitter......................................................... 27 1.6 System Connections.................................................. 30 1.6.1 External Frequency Reference Input (BNC).......................... 30 1.6.2 Ethernet Interface (RJ45)........................................ 30 1.6.3 System Interface 25-Way D-range................................. 30 External General Purpose Digital Inputs............................ 30 1.7 Miscellaneous....................................................... 31 1.7.1 Channel Details................................................ 31 1.7.2 Duplexer Attenuation Requirements................................ 31 TB9300 Specifications Manual 3

1.7.3 Operating Temperature Range.................................... 31 1.7.4 Heat Load Values.............................................. 32 1.7.5 Dimensions and Weight......................................... 32 1.7.6 Reliability.................................................... 32 2 Module Specifications.................................................... 33 2.1 Reciter............................................................. 34 2.1.1 Identifying the Reciter........................................... 34 2.1.2 Physical Details................................................ 35 2.2 PA................................................................ 36 2.2.1 Identifying the PA.............................................. 36 2.2.2 Physical Details................................................ 37 2.3 PMU............................................................... 38 2.3.1 Identifying the PMU............................................ 38 2.3.2 Physical Details................................................ 39 2.3.3 Connections................................................... 39 3 Compliance Standards................................................... 41 4 TB9300 Specifications Manual

Preface Scope of Manual Welcome to the Specifications Manual for the TB9300 base station. This manual provides general, performance and physical specifications for the TB9300 50W and s. Document Conventions Within this manual, four types of alerts may be given to the reader. The following paragraphs illustrate each type of alert and its associated symbol. Warning This alert is used when there is a hazardous situation which, if not avoided, could result in death or serious injury. Caution This alert is used when there is a hazardous situation which, if not avoided, could result in minor or moderate injury. Notice This alert is used to highlight information that is required to ensure procedures are performed correctly. Incorrectly performed procedures could result in equipment damage or malfunction. This icon is used to draw your attention to information that may improve your understanding of the equipment or procedure. TB9300 Specifications Manual 5

Associated Documentation The current set of TB9300 product documentation is provided in PDF format on the product CD. Updates are made available on the Tait technical support website. Printed copies of the documentation are available on request. TB9300 Installation and Operation Manual (MBC-00008-xx). DMR System Manual (MNB-00003-xx). DMR Node Controller Installation Manual (MNB-00001-xx). The characters xx represent the issue number of the documentation. 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. The product CD includes technical notes that were available at the time of release. Look for new or updated technical notes on the Tait technical support website. Publication Record Issue Publication Date Description 1 July 2012 First release 2 October 2012 Changes for version 1.05 release. Additions receiver switching range operating temperature range Btu load values PA product codes Updates power and current consumption reciter product codes compliance standards 3 June 2013 Changes for version 1.15 release. Additions K-band base station specifications Updates compliance standards 4 November 2013 Changes for version 1.25 release. Additions H-band base station specifications Updates compliance standards 6 TB9300 Specifications Manual

Issue Publication Date Description 5 November 2014 Changes for version 1.40 release. Additions H3-band and L2-band base station specifications Updates digital unfaded sensitivity specifications base station MTBF compliance standards 6 April 2015 Changes for version 2.00 release. Additions B2-band base station specifications Updates base station MTBF compliance standards 7 July 2015 Changes for version 2.05 release. Updates external frequency reference stability specification TB9300 Specifications Manual 7

8 TB9300 Specifications Manual

1 Base Station Specifications The performance figures given in these specifications are applicable only to equipment operating as an integral part of a TB9300 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 +82.4 F]) and standard test voltages as follows: AC power management unit (PMU) - 120VAC and 230VAC 12V DC PMU - 12VDC 24V DC PMU - 24VDC 48V DC PMU - 48VDC. Where applicable, the test methods used to obtain these figures are those described in the ETSI EN specifications. This equipment is compatible with the emissions listed in the following table. Emission Designator Common Name Modulation Scheme Operating Modes 7K60FXD 2-slot DMR 4FSK data/control channel 7K60FXW 2-slot DMR 4FSK digital voice/data/ control channel You can obtain further details of test methods and the conditions which apply for compliance testing in all countries from Tait. The TB9300 is available in the following configurations: 50W single or dual base station with PMU 100W single base station with PMU. Notice The software release notes list known issues or limitations of the base station that may vary from the specifications published in this document. Please refer to the current software release notes for any variations to the specifications in this document. TB9300 Specifications Manual Base Station Specifications 9

1.1 Frequency Bands and Sub-bands Many of the performance figures in this manual are applicable to all frequency bands. In some cases the figures refer to specific bands or subbands, and these are identified with the letters listed in the following table. The table also indicates which base station configurations are currently available in each frequency band. Frequency Identification Frequency Band and Sub-band 50W 100W B band B2 = 136MHz to 156MHz B3 = 148MHz to 174MHz H band H1 = 400MHz to 440MHz H2 = 440MHz to 480MHz H3 = 470MHz to 520MHz K band K4 = 762MHz to 870MHz a L band L2 = 896MHz to 902MHz (receive) L2 = 927MHz to 941MHz (transmit) a. The actual frequency coverage in this band is: Transmit: 762MHz to 776MHz, and 850MHz to 870MHz Receive: 792MHz to 824MHz 10 Base Station Specifications TB9300 Specifications Manual

1.2 Power Supply The specifications in this section refer to the TB9300 base station fitted with a PMU. AC Input Input Voltage Frequency Power factor Total harmonic distortion (THD) Inrush current 230VAC 115VAC Leakage current 88VAC to 264VAC 50Hz to 60Hz > 0.95 < 8% < 30A @ < 4ms < 15A @ < 4ms < 3.5mA/240VAC Protection Fault current (input) Transient suppression Overvoltage inhibit (self recovering) Undervoltage signal 10A fuse 275V MOV (line-to-line) 275VAC ±10V 83VAC ±5V General Efficiency at rated output a Input-to-chassis isolation Input-to-output isolation Output-to-chassis isolation a. At 230VAC. 86% 1500VAC, 50Hz, 1 minute 3000VAC, 50Hz, 1 minute 500VAC, 50Hz, 1 minute TB9300 Specifications Manual Base Station Specifications 11

DC Input Input voltage 12V PMU 24V PMU 48V PMU User-programmable alarms a Low battery voltage High battery voltage 10V to 14V 14V to 17.5V 20V to 28V 28V to 35V 40V to 56V 56V to 70V User-programmable limits b Startup voltage (after shutdown) Shutdown voltage 10.9V to 15V ±0.3V 10V to 13.5V ±0.3V 21.8V to 30V ±0.5V 20V to 27V ±0.5V 43.6V to 60V ±1V 40V to 54V ±1V Battery protection (fail-safe) limits c Startup voltage Undervoltage shutdown Overvoltage shutdown Overvoltage shutdown reset 10.8V ±0.2V 9.5V ±0.3V 18.1V ±0.3V 17.1V ±0.3V 21.6V ±0.5V 19V ±0.5V 36.2V ±0.5V 34.2V ±0.5V 43.2V ±1V 38V ±1V 72.4V ±1V 68.4V ±1V a. User-programmable alarms can be set for low or high battery voltage, using the web interface. The alarms will be triggered when the set voltage levels are reached. These limits are subject to the tolerances of the battery protection circuitry, as stated in Battery Protection (Fail-safe) Limits above. b. The user-programmable startup and shutdown limits allow for adjustable startup and shutdown voltages. Using the web interface, these limits can be adjusted for different numbers of battery cells, or for the particular requirements of the base station operation. Once the limits are reached, the PMU will shutdown. These limits are subject to the tolerances of the battery protection circuitry. c. The battery protection limits are set in hardware at the factory and cannot be adjusted by the user. These limits will not be reached under normal operation conditions, but are provided as fail-safe measures to protect the battery from deep discharge. Input current 12V 24V 48V 0V to battery protection startup voltage d 2mA maximum 2mA maximum 1.2mA maximum Battery protection startup voltage to user-programmed startup voltage e 40mA (typical) at 10.8V 30.1mA (typical) at 21.6V 13.2mA (typical) at 43.2V Operating current refer to Power and Current Consumption on page 14 d. When the input voltage drops below the battery protection undervoltage shutdown limit, and until the voltage rises above the battery protection startup voltage. e. At initial power-up; or, after battery protection has occurred, when the input voltage rises above the battery protection startup voltage (PMU now under control of its microcontroller), but is still below the user-programmed startup voltage Protection Fault current (input) Wrong input voltage Wrong input voltage polarity f. Provided by user. circuit breaker or fuse in external wiring f electronic lock-out shunt diode General Efficiency at rated output 12VDC 24VDC 48VDC Input-to-output isolation 82% 85% 90% 1000VAC, 50Hz, 1 minute 12 Base Station Specifications TB9300 Specifications Manual

Outputs 28VDC output Voltage Current Regulation Ripple and noise a Ripple and noise rms Transient response on 28V loadstep b a. 100MHz bandwidth. b. 10% to 100% loadstep. 28V 14A maximum ±0.5% 50mV pp 10mV rms 2% overshoot and recover within 0.6ms Protection Overload Short circuit Overvoltage AC module DC module electronic current limit above 16A hiccup mode, self-resetting electronic shutdown latch (33.5V) electronic hysteric control (33.5V) Auxiliary Power Supply DC input voltage 28V ±15% DC output 12V 24V 48V Voltage Current Regulation Ripple and noise a Ripple and noise rms Zero load ripple 13.65V 3A maximum ±2% 50mV pp 10mV rms 100mVpp 27.3V 1.5A maximum ±2% 50mV pp 10mV rms 100mVpp 54.6V 750mA maximum ±2% 50mV pp 10mV rms 100mVpp a. 100MHz bandwidth. Protection 12V 24V 48V Overload/short circuit Overvoltage electronic current limit 16V Zener diode electronic current limit 32V Zener diode electronic current limit 62V Zener diode General Efficiency at rated output Input-to-output isolation Output-to-chassis isolation 88% 1000VAC, 50Hz, 1 minute 500VAC, 50Hz, 1 minute TB9300 Specifications Manual Base Station Specifications 13

1.3 Power and Current Consumption The specifications in this section refer to the TB9300 base station fitted with a PMU. The performance figures are typical figures. The transmit measurements were carried out with the base station transmitting at the stated RF output power with all front panel fans running. The standby measurements were carried out with the base station not receiving or transmitting and no front panel fans running. All measurements were carried out with no load on the auxiliary power supply. 14 Base Station Specifications TB9300 Specifications Manual

1.3.1 120VAC Input Transmit A VA W Single 50W base station 825mA 1.5A 99VA 175VA 92W 171W Dual 50W base station a B Band a. Both base stations transmitting. 1.3A 2.7A 154VA 321VA 149W 319W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 1.2A 2.1A 2.8A 145VA 247VA 333VA 140W 244W 331W Single 50W base station 860mA 1.6A 103VA 191VA 96W 187W Dual 50W base station b H Band b. Both base stations transmitting. 1.3A 2.9A 156VA 348VA 152W 345W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 1.3A 2.1A 2.8A 151VA 254VA 338VA 147W 252W 341W Single 50W base station 905mA 1.7A 109VA 204VA 101W 201W Dual 50W base station c K4 Band c. Both base stations transmitting. 1.3A 2.9A 156VA 348VA 152W 345W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 1.3A 2.2A 3A 156VA 264VA 360VA 152W 261W 357W TB9300 Specifications Manual Base Station Specifications 15

Transmit (Continued) A VA W L2 Band Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 1.3A 2.2A 3A 156VA 264VA 360VA 152W 261W 357W Standby A VA W Single 50W and 355mA 43VA 27W Dual 50W base station 470mA 56VA 47W 16 Base Station Specifications TB9300 Specifications Manual

1.3.2 230VAC Input Transmit A VA W Single 50W base station 615mA 920mA 141VA 212VA 82W 167W Dual 50W base station a B Band a. Both base stations transmitting. 800mA 1.5A 184VA 337VA 140W 309W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 770mA 1.2A 1.5A 177VA 264VA 349VA 129W 234W 323W Single 50W base station 640mA 950mA 148VA 220VA 86W 179W Dual 50W base station b H Band b. Both base stations transmitting. 855mA 1.6A 197VA 362VA 152W 338W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 810mA 1.2A 1.6A 186VA 277VA 357VA 138W 245W 336W Single 50W base station 660mA 1A 152VA 230VA 92W 193W Dual 50W base station c K4 Band c. Both base stations transmitting. 855mA 1.5A 197VA 345VA 152W 323W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 835mA 1.2A 1.6A 192VA 276VA 368VA 144W 246W 346W TB9300 Specifications Manual Base Station Specifications 17

Transmit (Continued) A VA W L2 Band Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 835mA 1.2A 1.6A 192VA 276VA 368VA 144W 246W 346W Standby A VA W Single 50W and 500mA 114VA 28W Dual 50W base station 525mA 120VA 46W 18 Base Station Specifications TB9300 Specifications Manual

1.3.3 12VDC Input Transmit A W Single 50W base station 6.9A 13.6A 82W 164W Dual 50W base station a B Band a. Both base stations transmitting. 11.3A 25.9A 136W 310W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 10.7A 19.4A 27.3A 128W 232W 327W Single 50W base station 7.2A 14.5A 86W 174W Dual 50W base station b H Band b. Both base stations transmitting. 12.4A 28.2A 149W 338W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 11.3A 20.5A 28.5A 136W 246W 342W Single 50W base station 7.7A 16.4A 92W 197W Dual 50W base station c K4 Band c. Both base stations transmitting. 12.2A 28.2A 146W 338W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 12A 22A 31.1A 144W 264W 373W TB9300 Specifications Manual Base Station Specifications 19

Transmit (Continued) A W L2 Band Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 12A 22A 31.1A 144W 264W 373W Standby A W Single 50W and 1.8A 22W Dual 50W base station 3A 36W 20 Base Station Specifications TB9300 Specifications Manual

1.3.4 24VDC Input Transmit A W Single 50W base station 3.5A 6.9A 84W 165W Dual 50W base station a B Band a. Both base stations transmitting. 5.8A 12.7A 139W 304W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 5.4A 9.7A 13.3A 129W 232W 319W Single 50W base station 3.5A 7.1A 84W 171W Dual 50W base station b H Band b. Both base stations transmitting. 6A 13.4A 145W 322W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 5.5A 9.8A 13.3A 132W 235W 319W Single 50W base station 3.7A 7.8A 89W 187W Dual 50W base station c K4 Band c. Both base stations transmitting. 5.8A 13.2A 139W 317W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 5.7A 10.4A 14.4A 137W 250W 346W TB9300 Specifications Manual Base Station Specifications 21

Transmit (Continued) A W L2 Band Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 5.7A 10.4A 14.4A 137W 250W 346W Standby A W Single 50W and 910mA 22W Dual 50W base station 1.3A 31W 22 Base Station Specifications TB9300 Specifications Manual

1.3.5 48VDC Input Transmit A W Single 50W base station 1.6A 3.3A 78W 156W Dual 50W base station a B Band a. Both base stations transmitting. 2.7A 6.1A 131W 291W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 2.5A 4.6A 6.2A 122W 219W 298W Single 50W base station 1.7A 3.5A 83W 168W Dual 50W base station b H Band b. Both base stations transmitting. 2.9A 6.5A 139W 312W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 2.7A 4.8A 6.6A 131W 232W 315W Single 50W base station 1.8A 3.8A 86W 182W Dual 50W base station c K4 Band c. Both base stations transmitting. 2.9A 6.5A 139W 312W Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 2.8A 5.1A 7.1A 134W 245W 341W TB9300 Specifications Manual Base Station Specifications 23

Transmit (Continued) A W L2 Band Minimum RF output power (10W) 50% RF output power (50W) Maximum RF output power (100W) 2.8A 5.1A 7.1A 134W 245W 341W Standby A W Single 50W and 438mA 21W Dual 50W base station 700mA 34W 24 Base Station Specifications TB9300 Specifications Manual

1.4 Receiver General Frequency bands B2 band B3 band H1 band H2 band H3 band K4 band L2 band 136MHz to 156MHz 148MHz to 174MHz 400MHz to 440MHz 440MHz to 480MHz 470MHz to 520MHz 792MHz to 824MHz 896MHz to 902MHz Type triple conversion superheterodyne; first conversion is analog, second is hybrid, and third is digital Frequency increments B band H, K4 and L2 bands 2.5kHz and 3.125kHz 5kHz and 6.25kHz Switching range a B band H band ±2MHz ±5MHz a. The frequency range, measured from the tuned frequency, that can be used without needing to retune the front end or recalibrate the RSSI. Input load impedance 50Ω nominal (VSWR <2:1) RF input protection no degradation after 5 minutes exposure to on-channel signals at +20dBm (2.2V) Frequency stability Internal reference External reference B band H band K4 and L2 bands ±0.5ppm 30 C to +60 C ( 22 F to +140 F) ±1Hz ± multiplied accuracy of external reference ±1Hz ± multiplied accuracy of external reference ±2Hz ± multiplied accuracy of external reference RSSI 125dBm to 30dBm TB9300 Specifications Manual Base Station Specifications 25

General (Continued) IF stages - B band Frequencies Analog Digital Analog IF bandwidth Digital IF bandwidth 16.9MHz 16.9MHz and 0Hz 9kHz, 3dB 8.06kHz, 3dB IF stages - H, K4 and L2 bands Frequencies Analog Digital Analog IF bandwidth Digital IF bandwidth 70.1MHz 8.66MHz and 0Hz 9kHz, 3dB 8.06kHz, 3dB Spurious Emissions Conducted Radiated < 90dBm 9kHz to 2GHz < 70dBm 2GHz to 12.75GHz < 57dBm 30MHz to 1GHz < 47dBm 1GHz to 4GHz Digital Digital unfaded sensitivity a < 120dBm @ 5% BER (DAQ 2.0) < 118.5dBm @ 2.6% BER (DAQ 3.0) < 118dBm @ 2% BER (DAQ 3.4) < 117dBm @ 1% BER (DAQ 4.0) a. Center of switching range at 25 C. Digital selectivity B and H bands K4 and L2 bands Digital spurious response attenuation 82dB @ 1% BER 77dB @ 1% BER 90dB Digital intermodulation response attenuation b 78dB @ 1% BER unfaded b. Up to 5dB degradation at extremes of switching range and temperature. Digital blocking rejection >1MHz Digital co-channel rejection 100dB @ 1% BER 12dB 26 Base Station Specifications TB9300 Specifications Manual

1.5 Transmitter The specifications in this section pertain only to the combination of a TB9300 reciter with a 50W or 100W power amplifier. Frequency bands B2 band B3 band H1 band H2 band H3 band K4 band L2 band Modulation types 136MHz to 156MHz 148MHz to 174MHz 400MHz to 440MHz 440MHz to 480MHz 470MHz to 520MHz 762MHz to 776Mhz and 850MHz to 870MHz 927MHz to 941MHz 7K60FXD, 7K60FXW Frequency increments B band H, K4 and L2 bands 2.5kHz and 3.125kHz 5kHz and 6.25kHz Frequency stability a ±0.5ppm 30 C to +60 C ( 22 F to +140 F) a. For K4 band (762MHz to 776MHz) the internal frequency reference accuracy is inadequate, and an external reference must be used. The stability of this reference should be better than 100 parts per billion. See External Frequency Reference Input (BNC) on page 30. Output load impedance 50Ω nominal Output power 50W PA Rated power Range of adjustment 100W PA Rated power Range of adjustment 50W 5W to 50W in 1W steps 100W 10W to 100W in 1W steps Output power accuracy b ±0.5dB into a 50Ω load b. Within normal operating voltages and temperatures; measured directly on PA output. Duty cycle c. Measured directly on PA output. 100% at maximum rated output power c at +60 C (+140 F) ambient temperature Mismatch capability Ruggedness Stability d. Under power foldback. open and short circuit load at any phase angle for one hour d 5:1 load VSWR at all phase angles d TB9300 Specifications Manual Base Station Specifications 27

Protection Temperature Current Supply voltage VSWR power foldback to 10% if RF power devices exceed safe operating conditions power foldback and shutdown if RF power devices exceed safe operating currents power foldback to 10% when supply voltage is 24V to 26V and 30V to 32V; shutdown when supply voltage is <24V and >32V power foldback to 10% at VSWR extremes; continuous analog power foldback to maintain 100% duty cycle into mismatched loads Adjacent channel power DMR modulation < 60dBc (EN 300 113-1) Modulation fidelity <2% Intermodulation 40dBc with interfering signal at 30dBc at TB9300 base station RF output. For Europe, 70dB ratio is achieved using an external Circulator/Isolator with a minimum isolation of 30dB and less than 0.5dB insertion loss. Sideband noise e ±12.5kHz ±100kHz ±1.5MHz e. No modulation, measured from center frequency. < 120dBc/Hz < 145dBc/Hz < 154dBc/Hz at 50W < 157dBc/Hz at 100W Radiated spurious emissions Transmit - B band Transmit - H band Transmit - K4 and L2 bands Standby f. Transmit frequency below 470MHz. g. Transmit frequency above 470MHz. < 36dBm 30 MHz to 1GHz < 30dBm 1GHz to 4GHz < 36dBm 30MHz to 1GHz < 30dBm 1GHz to 4GHz f < 30dBm 1GHz to 12.75GHz g < 20dBm to 9GHz < 57dBm to 1GHz < 47dBm 1GHz to 4GHz 28 Base Station Specifications TB9300 Specifications Manual

Conducted spurious emissions Transmit - B band Transmit - H band Transmit - K4 and L2 bands Standby h. Transmit frequency below 470MHz. i. Transmit frequency above 470MHz. < 36dBm 9 khz to 1GHz < 30dBm 1GHz to 4GHz < 36dBm 30MHz to 1GHz < 30dBm 1GHz to 4GHz h < 30dBm 1GHz to 12.75GHz i < 20dBm to 9GHz < 57dBm to 1GHz < 47dBm 1GHz to 12.75GHz Transient behaviour - B and H bands complies with EN 300 113-1 v1.7.1 and EN 300 113-2 v1.5.1 TB9300 Specifications Manual Base Station Specifications 29

1.6 System Connections 1.6.1 External Frequency Reference Input (BNC) Frequencies a a. Automatically detected by the reciter. Lock range Input level Input impedance 10MHz or 12.8MHz ±50Hz 500mVpp to 5Vpp 1kΩ 1.6.2 Ethernet Interface (RJ45) Transceiver 10/100 Base-Tx/Rx (Auto-MDIX) IEEE-spec IEEE802.3 and 802.3u 1.6.3 System Interface 25-Way D-range External General Purpose Digital Inputs Input low threshold V IL < 0.6V Input high threshold V IH >1.2V Input source current I IL <1mA (V IL = 0V) Continuous input voltage V IN <30V Transient input voltage V IN <35V (t <1s) 30 Base Station Specifications TB9300 Specifications Manual

1.7 Miscellaneous 1.7.1 Channel Details Number of channels 1000 Channel change time 300ms 1.7.2 Duplexer Attenuation Requirements The following graph shows the attenuation requirements for duplexers used with the base station. The dotted plot represents the attenuation required in the Rx path at the Tx frequency, while the continuous plot shows the attenuation required in the Tx path at the Rx frequency. A 100W transmitter is assumed. The quoted attenuation will ensure not more than 1dB receiver desensitization (from the specified sensitivity), and has a 5dB margin built in. 75 70 db attenuation 65 Rx path attenuation at Tx frequency Tx path attenuation at Rx frequency 60 0 5 10 15 20 offset frequency in MHz 1.7.3 Operating Temperature Range Operating temperature range 30 C to +60 C ( 22 F to +140 F) ambient temperature a a. Ambient temperature is defined as the temperature of the air at the intake to the cooling fans. TB9300 Specifications Manual Base Station Specifications 31

1.7.4 Heat Load Values These measurements were carried out with the base station transmitting at its rated output power with all front panel fans running. All measurements were carried out with no load on the auxiliary power supply. W Btu/h B Band Single 50W base station Dual 50W base station 121W 219W 231W 413Btu/h 747Btu/h 788Btu/h H Band Single 50W base station Dual 50W base station 137W 244W 245W 467Btu/h 833Btu/h 836Btu/h K4 Band Single 50W base station Dual 50W base station 151W 245W 257W 516Btu/h 837Btu/h 878Btu/h L2 Band 257W 878Btu/h 1.7.5 Dimensions and Weight Dimensions Height Width Length Subrack only Including front panel 176.8mm (7in) 482.6mm (19in) 385mm (15.2in) 400.5mm (15.8in) Weight a Single 50W base station Dual 50W base station a. With AC and DC PMU. 21.5kg (47.4lb) 28.6kg (63.1lb) 22.8kg (50.3lb) 1.7.6 Reliability MTBF >80,000 hours (based on field returns) 32 Base Station Specifications TB9300 Specifications Manual

2 Module Specifications This chapter provides hardware specifications for the individual modules used in the TB9300 base station: reciter PA PMU. Notice The software release notes list known issues or limitations of the base station that may vary from the specifications published in this document. Please refer to the current software release notes for any variations to the specifications in this document. TB9300 Specifications Manual Module Specifications 33

2.1 Reciter 2.1.1 Identifying the Reciter You can identify the model and hardware configuration of a reciter by referring to the product code printed on labels on the front and rear panels. The meaning of each character in the product code is explained in the table below. Notice This explanation of reciter product codes is not intended to suggest that any combination of features is necessarily available in any one reciter. Consult your regional Tait office for more information regarding the availability of specific models and options. Product Code T01-01105-XXXX T01-01105-XXXX T01-01105-XXXX T01-01105-XXXX Description Frequency Band and Sub-band C = 136MHz to 156MHz (B2 band) D = 148MHz to 174MHz (B3 band) K = 400MHz to 440MHz (H1 band) L = 440MHz to 480MHz (H2 band) M = 470MHz to 520MHz (H3 band) N = 762MHz to 870MHz (K4 band) a Q = 896MHz to 902MHz (L2 band receive) Q = 927MHz to 941MHz (L2 band transmit) A = standard A = default A = default a. The actual frequency coverage in this band is: Transmit: 762MHz to 776MHz and 850MHz to 870MHz Receive: 792MHz to 824MHz 34 Module Specifications TB9300 Specifications Manual

2.1.2 Physical Details Cooling forced air via front panel fan Connectors RF input Transmit forward RF output Recommended SMA torque Control, alarm and 28VDC input External reference frequency input 1PPS input Ethernet System inputs and outputs BNC female SMA female 0.6N m (5lbf in) 20-way IDC male BNC female BNC female RJ45 25-way D-range Dimensions Weight Height Width Length 144mm (5.7in) 54.6mm (2.1in) 321.5mm (12.7in) 2.4kg (5.3lb) TB9300 Specifications Manual Module Specifications 35

2.2 PA 2.2.1 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 front and rear panels. The meaning of each character in the product code is explained in the table below. Notice This explanation of PA product codes is not intended to suggest that any combination of features is necessarily available in any one PA. Consult your regional Tait office for more information regarding the availability of specific models and options. Product Code T01-01136-XXXX T01-01136-XXXX T01-01136-XXXX T01-01136-XXXX Description Frequency Band C = 136MHz to 174MHz (B band) J = 380MHz to 520MHz (H band) N = 762MHz to 870MHz (K4 band) a Q = 850MHz to 941MHz (L band) A = 50W B = 100W A = default A = default a. The actual frequency coverage in this band when used with a K-band TB9300 reciter is 762MHz to 776MHz and 850MHZ to 870MHz. 36 Module Specifications TB9300 Specifications Manual

2.2.2 Physical Details Cooling forced air over heatsink via front panel fan Connectors 28VDC Input RF Input Recommended SMA Torque RF Output Control and Alarm Phoenix MVSTBR2.5HC/2-ST/5.08 female SMA female 0.6N m (5lbf in) N-type female 16-way IDC male Dimensions Height Length Width 50W PA 100W PA 86mm (3.4in) 350mm (13.8in) 144mm (5.7in) 177mm (7in) Weight 50W PA 100W PA 4.6kg (10.1lb) 5.9kg (13.0lb) TB9300 Specifications Manual Module Specifications 37

2.3 PMU 2.3.1 Identifying the PMU You can identify the model and hardware configuration of a PMU by referring to the product code printed on labels on the front and rear panels. The meaning of each character in the product code is explained in the table below. Notice This explanation of PMU product codes is not intended to suggest that any combination of features is necessarily available in any one PMU. Consult your regional Tait office for more information regarding the availability of specific models and options. Product Code TBAXXXX-XXXX TBA3XXX-XXXX TBA3XXX-XXXX TBA3XXX-XXXX TBA3XXX-XXXX TBA3XXX-XXXX TBA3XXX-XXXX TBA3XXX-XXXX Description 3 = PMU 0 = default 0 = AC module not fitted A = AC module fitted 0 = DC module not fitted 1 = 12V DC module fitted 2 = 24V DC module fitted 4 = 48V DC module fitted 0 = standby power supply card not fitted 1 = 12VDC standby power supply card fitted 2 = 24VDC standby power supply card fitted 4 = 48VDC standby power supply card fitted 0 = auxiliary power supply board not fitted 1 = 12VDC auxiliary power supply board fitted 2 = 24VDC auxiliary power supply board fitted 4 = 48VDC auxiliary power supply board fitted 0 = default 0 = default 38 Module Specifications TB9300 Specifications Manual

2.3.2 Physical Details Cooling forced air over heatsink via front panel fan Dimensions Height Width Length AC PMU DC PMU AC and DC PMU 143.5mm (5.6in) 121.4mm (4.8in) 324mm (12.8in) 337mm (13.3in) 337mm (13.3in) Weight AC PMU DC PMU AC and DC PMU 4.8kg (10.6lb) 5.1kg (11.2lb) 7.0kg (15.4lb) 2.3.3 Connections The following specifications refer to the external wiring and connectors which are connected to the PMU. They do not refer to the wiring and connectors built into the PMU itself. AC input Connector type Current rating IEC female 6A DC input a Connector type Recommended screw torque M6 screw into threaded fitting on bus bar 2 2.5N m (18 20lbf in) 12V 24V 48V Connector current rating Flexible wire size b Flexible wire cross section b 50A 2AWG 35mm 2 25A 5AWG 16mm 2 12A 8AWG 8mm 2 a. Battery. b. For a length of 1.5m to 2m (5ft to 6.5ft) (typical); 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. DC output - low current (from auxiliary power supply) Connector type Flexible wire size Phoenix MVSTBR2.5HC/2-ST/5.08 female 20AWG to 11AWG TB9300 Specifications Manual Module Specifications 39

40 Module Specifications TB9300 Specifications Manual

3 Compliance Standards The TB9300 base station has been tested and approved to appropriate national and international compliance standards. These standards are listed on the following page. The standards quoted in these specifications are applicable only to equipment operating as an integral part of a TB9300 base station. You can obtain further details of test methods and the conditions which apply for compliance testing in all countries from Tait. Notice The software release notes list known issues or limitations of the base station that may vary from the specifications published in this document. Please refer to the current software release notes for any variations to the specifications in this document. TB9300 Specifications Manual Compliance Standards 41

RF and EMC Compliances The following table shows which variants of the TB9300 have been tested and approved to the listed standards. A tick indicates the compliance has been received, a date indicates when the compliance is expected to be received, and a blank cell indicates there are currently no plans to apply for this compliance. B Band H Band K4 Band L2 Band 50W 100W 50W 100W 50W 100W 100W CFR Title 47 Parts 15 and 90 (FCC) a a b b CFR Title 47 Parts 22 and 74 (FCC) a a b b c RSS-119 (IC) a a b b RF EN 300 113-1, EN 300 113-2 (ETSI) b b AS/NZS 4768 Appendix A d d ANATEL Resolution 554 a a ANATEL Resolution 361 CFR Title 47 Part 15 (FCC) a a b b EMC EN 301 489-1, EN 301 489-5 (ETSI) b b ANATEL Resolution 442 a a a. B3 band only. b. H1 and H2 bands only. c. Part 22 only. d. H1, H2 and H3 bands. Safety and Environmental Compliances The TB9300 base station has been tested and approved to the following standards. Safety Environmental EN 60950-1 (ETSI) UL 60950-1 (E223047) a AS/NZS 60950-1, Q090114 a Low Pressure (Altitude) b Humidity c Vibration Shock MIL-STD-810G Method 500.5 Procedure 2 MIL-STD-810G Method 507.5 Procedure 2 MIL-STD-810G Method 514.6 Procedure 1 MIL-STD-810G Method 516.6 Procedure 1 a. PMU only. b. 15000ft (4572m). c. To be confirmed. 42 Compliance Standards TB9300 Specifications Manual