Xfin Blade SERVICE MANUAL XFIN-BLADE-SM Issue 3.0 February 2008 © Team Simoco 2008 Team Simoco Ltd. Field House, Uttoxeter Old Road Derby DE1 1NH Tel: +44 (0) 1332 375 500 FAX: +44 (0) 1332 375 501 www.teamsimoco.
DECLARATION The performance figures quoted are subject to normal manufacturing and service tolerances. The right is reserved to alter the equipment described in this manual in the light of future technical development. COPYRIGHT All rights reserved. No part of this publication may be reproduced in any form or by any means without the prior written permission of Team Simoco Ltd.
XFIN-BLADE-SM DECLARATION PAGE 3
WARNINGS AND CAUTIONS WARNING The Power Amplifier Module uses semiconductor devices containing Beryllium Oxide. Dust from this oxide is toxic and, if inhaled or skin contact is made, can be hazardous to health. No danger can arise from normal handling, but no attempt should be made to break open or tamper with these devices in any way. These items should not be discarded with industrial or domestic waste. WARNING To avoid RF injury, do not touch the Antenna when the Transmitter is in use.
XFIN-BLADE-SM TABLE OF CONTENTS DECLARATION............................................................................................................... 2 COPYRIGHT ................................................................................................................... 2 ERRORS AND OMISSIONS............................................................................................ 2 DOCUMENT HISTORY ..............................................................................................
3.5.7 USB Connector .................................................................................................21 3.5.8 Line 1 & 2 (RJ45) ..............................................................................................22 3.5.9 Facilities............................................................................................................22 3.5.10 PSTN Port (RJ11) .............................................................................................
XFIN-BLADE-SM 4.3.7.1 Power On Function .................................................................................50 4.3.7.2 Power Lines ............................................................................................50 4.4 Antenna Requirements ..................................................................................... 52 4.5 Power supplies..................................................................................................52 4.6 Configuration .................
7.3.2 Ancillary Items...................................................................................................65 7.3.3 Unpacking Equipment.......................................................................................66 7.4 8 Software Policy .................................................................................................66 LCD MENU O PERATION .....................................................................................68 8.1 Default Display .....................
XFIN-BLADE-SM B. CONTROL CARD BLOCK DIAGRAM..................................................................78 C. RADIO FREQUENCY HAZARD INFORMATION .................................................
1 INTRODUCTI ON 1.1 GENERAL Figure 1.1 - Front view of the Xfin Blade. Brief Description: The Xfin Blade is a 1U trunking system with an integrated basestation and the capability to provide a control and/or traffic channel. It incorporates the established MPT1327 trunking standard with next generation hardware and VoIP technology. A trunked site consists of a number of Blade units which are inter-connected using standard CAT5 Ethernet cable.
XFIN-BLADE-SM 2 PRODUCT CODES The following information is displayed on the Type Approval Label located on the chassis behind the speaker housing. 2.
3 DESCRIPTION The Blade is a 1U high by 19” wide rack-mountable unit containing two SRM9000 sub-assemblies, a control card, and a fan bulkhead which mates with the angled front panel and MMI card. There is also provision for fitting a high power amplifier or integrated power supply option. 3.1 VENTILATION Control Board Receiver Transmitter High-power Amplifier or Integrated PSU Option In order to provide full-power continuous operation in any orientation and in a 1U envelope, the Figure 3.
station at the inlet AND at the outlet. This should be increased if air has to be drawn through ducts or has to be deflected around corners. Noise and dust build up can be reduced by keeping cabling and other obstructions out of the main airflows. There are no dust filters fitted in this product. If it is to be used in very dirty environments, then additional steps should be taken to prevent ingress of dust as this will affect thermal performance.
XFIN-BLADE-SM Inputs/Outputs Type Approval Serial interface with 1x audio connection (RJ45 – front panel) 2x line/audio (2/4-wire) connections with E&M signalling (2x RJ45 with internal shield) Programmable facilities connector (37 way D-type) 2x RS232 serial connections (9 way D-type, RJ45 with internal shield) Ethernet IP interface (10/100 base-T magnetic RJ45 with external shield) USB connector (Type-B USB Socket) PSTN connector (6/4 RJ-11 socket) Power connector (5 Pin, 25 D-shell) CE Type approvals t
Tx Current Consumption Typical: 100W: 5.7A @13.6V + 6.0A @27.3V (20°C) Duty Cycle 100% Audio Distortion <5% at 1kHz, 60% deviation Audio Frequency Response +1db to –3db of pre-emphasised 300 to 3000Hz on 25kHz channel, 300 to 2550Hz on 12.5kHz channel Hum and Noise >40db (12.5kHz), 45db (25kHz) Transmit Rise Time <25ms Max: 100W: 8.85A @13.6V + 10.0A @27.3V (fans & audio on maximum) 3.3.3 Receiver Voice: ³12db SINAD for 0.3mVpd (typically >20db) for 25kHz channel.
XFIN-BLADE-SM 3.4.2 LCD On the left side of the front panel is an LCD (Liquid Crystal Display) 2-by-20 Character Display. It indicates channel (control/traffic) and network status (master/slave). It also indicates volume level for the internal monitor speaker and presents a menu system. See the LCD Menu Operation section later in the manual. 3.4.3 Control Knob The control knob is used in conjunction with the LCD Display to operate the menu system and provide volume control.
3.4.4 MMI RJ45 Connector This is an RJ45 connector located on the left side of the angled front panel. It offers a direct UART interface, a microphone input channel and an audio output channel. The pinout is listed below (where for the purpose of this table, pin 1 is the left-most pin when looking into the RJ45 socket). Pin Function Pin Function Pin Function Pin Function 1 Tx-Data 3 N/C 5 +Vout 7 Gnd 2 Rx-Data 4 Mic Gnd 6 Audio Out 8 Audio In 3.
XFIN-BLADE-SM Figure 3.3 – View of the Xfin Blade rear panel. 3.5.1 Tx/Rx The antenna connections on the Blade are provided with 50W female N-type sockets. Mating connectors should be galvanically compatible with nickel outer and gold centre pin to minimise passive inter-modulation. A minimum of 85dB transmit-receive isolation should be provided by the antenna system and associated filters. It is recommended that a good quality flexible co-axial cable is used, e.g.
Pin Description 1 Power amp (option). +24VDC (nom) 2 Power amp (option). DC ground 3 Chassis Ground 4 +12VDC(nom) input 5 0VDC input 1 Notes: 5 12VDC nominal is normally supplied with 13.6VDC for battery float charge reasons. 24VDC nominal is normally supplied with 27.3VDC for battery float charge reasons. 3.5.3 Fuses Fuse F1 on the fuse-board is a 2A quick-blow, 20 x 5mm component and protects the 12V line to the MMI PCB.
XFIN-BLADE-SM 7 NC 8 NC 3.5.5 RS232 Serial (D-Sub) This is a standard DB-9 female RS-232 socket with the following pins connected for DTE operation: Pin Description Pin Description 1 NC 6 NC 2 Tx Data, output 7 CTS, input 3 Rx Data, input 8 RTS, output 4 NC 9 NC 5 GND 1 6 5 9 3.5.
3.5.8 Line 1 & 2 (RJ45) Each of these sockets provides a pair of barriered line audio connections via RJ45 connectors. Opto-isolated E&M signalling is also available on these connectors. A pair of lines is provided so that the unit can support active line combining. To provide DC Ground and Bias for E&M Signalling Caution When the following is performed, the line barrier is breached and the equipment must NOT be connected to Public Networks.
XFIN-BLADE-SM 6 Tx- line connection B 19 Channel line C0 (LSB) 32 Aux Rx 7 I/O 2 20 Tx- line connection A 33 I/O 8 8 I/O 4 21 Aux Tx 34 Analogue Out 9 +13.6v unswitched 22 Rx- line connection A 35 Channel line C5 10 Tx key command 23 Rx- line connection B 36 Channel line C3 11 Alarm 1 24 Squelch 37 Channel line C1 12 13 0v Alarm 2 25 26 I/O 1 I/O 3 3.5.
4 TECHNICAL DESCRIPTION 4.1 MMI BOARD Power Connector LEDs Fan Connectors Figure 4.
4.1.1 Description The purpose of the MMI board is to provide the Man Machine Interface between the control card and the user. The MMI board contains 5 LEDs for user diagnostics. It contains an LCD for displaying an interactive menu, which is accessed via a control knob. An audio amplifier is provided to drive a loud speaker at up to 2W, with volume adjustment via the control knob. An RJ45 interface for a serial port is also present.
XFIN-BLADE-SM 4.2 CONTROL BOARD 4.2.
Figure 4.
XFIN-BLADE-SM 4.2.2 Circuit Description Ethernet Analogue I/O IXP Control Serial Port Digital I/O Digital I/O CPLD SRM Interface Serial Control Line Barrier Line Audio 1 Line Barrier Line Audio 2 DSP BS Audio 1 CODECs BS Audio 2 Figure 4.4 – Block Diagram of Control Board See the Appendix for a more detailed block diagram representing the control card. 4.2.2.1 LEDs LED DL1 indicates Ethernet connection (‘LINK’). LED DL2 i ndicates the Flash device at U46 is being written to. 4.2.2.
Test Point Monitors Signal Type 1 Active-Low INVALID Pin on RS232 chip (U1) 3.3V Digital 2 Active-Low INVALID Pin on RS232 chip (U2) 3.3V Digital 3 Transmit Centre-Tap on Magnetic RJ45 (P3) D.C. 4 Output 4 of Clock Driver (U12) Bank B Clock Signal 5 Inverted Output of Digital I/O Shift Register (U10) 3.3V Digital 6 Inverted Output of Digital I/O Shift Register (U17) 3.3V Digital 7 Inverted Output of Digital I/O Shift Register (U11) 3.
XFIN-BLADE-SM 32 PF1 on the DSP (U28) 2 3.3V Digital 33 I C Data (SDA) 3.3V Digital 34 RX_FRAME signal for High Speed Serial Port 1 on the IXP (U34) 3.3V Digital 35 Active-Low RING signal (indicating half-wave ringing detect output signal) from PSTN interface (U7) 3.3V Digital 36 GPIO_IN6 Signal to CPLD (U22) 3.3V Digital 37 SPI_CS_DAC f rom IXP GPIO(10) 3.3V Digital 38 RX_FRAME signal for High Speed Serial Port 0 on the IXP (U34) 3.
62 Audio Input 1 to Codec C2 (U52) prior to being converted from single-ended to differential Audio Signal 63 SPI_CLK 3.3V Digital 64 5V Bias for 10V Op Amps D.C. 65 Audio Output 2 from Codec C2 (U52) after passing through 1st Op-Amp stage Audio Signal 66 Analogue 3.3V A3V3 D.C. 67 Analogue Ground AGND D.C. 68 Analogue 2.5V Supply Rail (Bias for 5V Op Amps and ADC) A2V5 D.C. 69 Codec Select Strobe CODSE generated by DSP PF4 3.3V Digital 70 Digital 5V supply rail (used by 3.
XFIN-BLADE-SM 94 PSTN Rx+ Audio Signal 95 Auxiliary Audio Rx Audio Signal 96 Auxiliary Audio Tx Audio Signal 97 Mic Rx Audio Signal 98 Speaker Tx+ Audio Signal 99 Speaker Tx- Audio Signal 100 Handset Rx Audio Signal 101 Handset Tx Audio Signal 102 10V Voltage Supply D.C. 103 3.3V Digital Voltage Supply D.C. 104 Codec 0, Output 1 (Positive) Audio Signal 105 1.3V Digital Voltage Supply 1V3 D.C. 106 Filtered Input Voltage Supply VINF D.C. 107 Input Voltage Supply VIN D.
4.2.2.4 Power The control board requires a 12V 2000ma supply. Linear regulators are provided to reduce the input voltage down to 10V and 5V for the audio circuits. The input voltage supply is also regulated down to 3.3V for the digital logic via a switched mode power supply. The 1.3V supply for the IXP processor core is generated by a regulator off the 3.3V rail. The 1.2V supply for the DSP core is generated by a diode (controlled by the DSP) off the 3.3V rail. 4.2.2.
XFIN-BLADE-SM The IXP controls an LXT971 PHY chip (U20) that provides a 10/100 Base-T Ethernet interface. The PHY is connected to an RJ-45 socket with built-in magnetics; the socket also presents two external LEDs which are configured to indicate activity and 10/100 status. RS232 Serial Interface (DB-9) The rear of the Blade contains a standard 9-way Serial connection in order that a straight through cable may be used to connect a PC to the IXP.
links F3 and F4 can be fitted to provide bias volts. This allows the unit to use DC signalling. 4.2.2.8 PSTN Interface A Clare DAA chip (U7) provides a PSTN interface. An audio channel links the telephone port to a codec (U54). At the time of configuration, the audio levels of the PSTN interface should be set for optimal transmission and reception. PSTN Interface Specifications: 3000 Vrms rated isolation voltage; 2000V/μs rated surge rise time.
XFIN-BLADE-SM 4.2.3 Links For Fuse Links F3 and F4, see E & M above.
PAGE 38 TECHNICAL DESCRIPTION
XFIN-BLADE-SM 4.3 RECEIVER AND TRANSMITTER M ODULES 4.3.1 Frequency Bands The Blade is supplied with a matched pair of radio sub-assemblies fitted. The designated 66 - 88 136 - 174 174 - 208 208 - 245 310 - 350 frequency bands are: MHz E0 Band MHz AC Band MHz K1 Band MHz KM Band MHz R0 Band 335 - 375 400 - 450 400 - 480 440 - 500 470 - 530 MHz MHz MHz MHz MHz R1 Band TK Band TU Band UW Band WR Band The following text refers to the components and circuits within the RF sub-assemblies only.
Antenna Filter L10, L11 & L12 PAGE 40 To Tx PA Antenna Switch D3, D4 & D5 CPP VCO Control Volts Bandpass Filter Rx VCO Switch Q601 Rx VCO Q600 SPKR OUT 2 SPKR OUT 1 Tune 1, 2, 3 & 4 RF Amp Q400 Rx PSU VCO Buffer Q604/605 Aux AF O/P Amp U803 AUD Out SPKR ON AF Amp U803 From Multiplexer U902 Mixer T400 Spkr Switch Q810/811/ 813 Speaker Amp U5 BandPass Filter Tx/Rx Switch D610/611 Synthesiser SYNTH Buffer Q607 Rx AF Switch U103C IF Amp Q401 To Tx Buffer to U701 TX MOD1 To TX VCO Fro
XFIN-BLADE-SM The RF front-end amplifier stage comprises a low-noise transistor amplifier (Q400), which is compensated to maintain good linearity across the required frequency bands and temperature range. This provides excellent intermodulation and blocking performance across the full operating range. The gain of this stage is typically 17dB for both UHF and VHF versions. 4.3.2.
4.3.3.1 Drivers and PA Stages The RF output level from the VCO buffer Q604 is typically +5dBm (UHF) and +8dBm (VHF). TX buffer Q606 increases this level by approximately 3dB (UHF) and 11dB (VHF) and also provides additional VCO isolation. The following section of the TX buffer Q612 is controlled by the transmitter power control loop and Q609. Q609 is normally saturated in transmit mode so there is no minimum gain control applied to this stage.
TX MOD1 TECHNICAL DESCRIPTION Rx AF Tx VCO Switch Q603 Tx VCO Q602 VCO Buffer Q604/605 to U701 ADC/DAC CODEC U800 Rx/Tx AF Switch U103B Tx PA Driver Q12 Comparator U3A Q15/16 Mic Amp Q812 From IQ Demodulator U401 I Q Tx Buffer/Amp Q606/609/ 612 MOD 1 ON (Tx/Rx AF Control) Tx/Rx Switch D610/611 To Rx Mixer LO1 Rx From FPGA/DSP SYNTH Synthesiser Buffer Q607 Rx AF Switch U103C VCO Control Volts CPP Power Control Q3/10 Gate U107 Gate U108 TX PA U2 Tx PA Filter/Switch Q14/17/18/19 AUD I
4.3.3.2 Tx Power Control Output power is stabilised by a power control feedback loop. L1, R54, a printed circuit transmission line, D6 and associated components comprise the power detector with Q3/10, U3 and associated components providing the power setting and control sections. Forward and reverse power is sampled by the power detector and applied as a DC voltage to the inverting input of comparator U3A.
XFIN-BLADE-SM 4.3.4 Frequency Synthesis 4.3.4.1 General Refer to Figure 3.7. The SRM9000 frequency synthesiser consists of individual transmitter and receiver (local oscillator) voltage controlled oscillators, loop filter, varactor negative bias generator, reference oscillator and an integrated, dual phase locked loop device U701. 4.3.4.2 PLL The PLL device contains two prescalers, programmable dividers and phase comparators to provide a main and auxiliary PLL.
channel frequency, TX/RX state). The voltage is converted to a high level negative supply by VCO Varicap Negative Supply Q700 to Q703. The -17V rail of this supply is generated by U300B/C with D304 to D307 providing the voltage multiplying effect needed to achieve -17V. The output of the negative supply is applied directly to the VCO varactor anodes as the negative tuning voltage VCAP BIAS. 4.3.4.
Tune Bal TECHNICAL DESCRIPTION Buffer U711/B Tx Mod1 Low Pass Filter U711/A LO2 AUX CP AUX LO2 Phase Modulator Q714/715/716 Ramp Gen Q711/712/713 To IQ Demodulator U401 90 MHz LO Q402 AFC Amp U802A AFC Ref OSC U700 Buffer Q710 Divider U710 36 (UHF) 72 (VHF) FXTAL Synthesiser U701 From FPGA/DSP AFC IN SYNTH DOUT CPPF CPP ADC/DAC CODEC U800 VCO Neg Bias Supply Q700/701/ 702/703 Loop Filter C734/ 719/ 722 Q Tx MOD1 VCAP BIAS Rx/Tx AF Switch U103B Tx MOD Switch U103A Rx/Tx VCO Q
PAGE 48 Reset U101 Clock Q100 MOVEX DSP U102 Synthesiser U701 Loop Volts ADC/DAC CODEC U800 Loop Volts Ramp Gen U105C Flash Memory U104 FPGA U106 FE Tune AUX CTL Tx Data Buffer Q1 Front End Tune Buffer U901A Tx Power Control Buffer U802B MUX A1 MUX AO MUX EN 9000_15 Tx Data Rx Data Front End Varicap Neg Volts Level Translator Q900/901/ 902/909 Multiplexer U902 Serial Port Serial Port Tune 1-4 ADC Ref A Tone Tx Power Set AGC 4.3.
XFIN-BLADE-SM Figure 3.8 - VHF/UHF Control Block Diagram 4.3.5.1 DSP and FPGA The Blade RF sub-assemblies operate under the control of a DSP (U102) and FPGA (U106) combination which together with a number of other dedicated devices perform all the operational and processing functions required by the radio.
is applied to one group of 4 analogue switches in U902 via a common input connected to pin 13. The second group of 4 switches is fed with the receiver front-end tuning signal FE TUNE (to provide outputs for TUNE 1 to 4) via the second common input at pin 3 as described in the receiver front-end section. The 2 groups of analogue switches are independently controlled by FPGA binary signals MUX A0 and A1 and enable line MUXEN to output the required tuning voltages as a series of pulses.
XFIN-BLADE-SM · · · RX mute switch Q810/813 Multiplexer U902 FE TUNE level translator and buffer U901A, Q900/901 Regulated +5.0V switched supply (TX PSU and TX PSU+) · · · · TX power control U3 TX buffer Q606 Microphone amplifier Q812 Various switching functions +3.3V Regulator U312 Regulated +3.3V supply (3N3) · · · Digital supply for CODEC U80 0 DSP U102 FPGA U106 Regulated +3.3V supply (3Q3) · I Q demodulator U401 Regulated +3.3V supply (3C3) · Analogue supply for CODEC U800 Regulated +3.
4.4 ANTENNA REQUIREMENTS The antenna connections on the Blade are provided with 50W female N-type sockets. These should be tested, by use of a suitable test set, e.g. Anritsu/Wiltron S331A, for good VSWR (1.5:1 or better) at the Tx and Rx frequencies prior to use. Mating connectors should be galvanically compatible with nickel outer and gold centre pin to minimise passive intermodulation. A minimum of 85dB transmit-receive isolation should be provided by the antenna system and associated filters. 4.
5 MAINTENANCE Although no Routine Maintenance is required on the Blade, it is generally good practice to clean the inside of the equipment on each occasion that it is necessary to open it. Dust and or light debris may accumulate in the following areas: · Fans · Heatsinks · Vents Use a fine bristle brush to remove all dust/debris from these areas, taking care not to damage the equipment. 5.
5.2.2 To Open the Blade Qty 2 Fixing Screws M3 1. Remove the 2 x M3 Pan Head screws one each side of the lid. 2. Lift and pull the front edge of the lid to remove the lid. 5.2.3 To Remove a Tx or Rx Assembly 1. Disconnect the BNC connector. 2. Disconnect the DB15 power connector. 3. Disconnect the appropriate miniature 26way and the long ribbon cables (when refitting, take care to align centrally). 4. Undo the two quarter-turn Dzus fasteners. 5.
XFIN-BLADE-SM 5.2.4 To Remove the Control B oard 1. Remove the top cover as detailed in Section 4.2.3. 2. Disconnect the three ribbon cables from the board. 3. Disconnect the Power Connector. Ribbon Cables Power Connector 4. Remove the four socket fasteners from the 9-way and 37-way connectors on the rear panel. 5. Release the three plastic locking pegs. Socket Fasteners Press in to release Plastic Locking Pegs 6.
3. Carefully separate the cables (power, fans, loudspeaker, control card) taking care not to damage or unduly tension them. 5.2.6 To Remove the MMI Board 1. Remove the front assembly as described in Section 5.2.5. 2. Remove the six securing screws from the chassis brackets. 3. Detach all of the cables (power, fans, loudspeaker, control card). 4. The MMI Board may now be removed. 5. To Remove the Loudspeaker, remove the front assembly and MMI boa rd as described above.
XFIN-BLADE-SM Note: When positioning the Control Board, care must be taken to ensure that the Thermistor is located correctly in the hole in the base plate.
6 PRODUCT VARIANTS AND ACCESSORIES 6.1 VARIANTS Blade - Full-Duplex Intelligent Base Station 66 - 88 MHz E0 Band 136 - 174 MHz AC Band 174 - 208 MHz K1 Band 208 - 245 MHz KM Band 310 - 350 MHz R0 Band 335 - 375 MHz R1 Band 400 - 450 MHz TK Band 400 - 480 MHz TU Band 440 - 500 MHz UW Band 470 - 530 MHz WR Band 25W Ext. PSU 25W Int.
XFIN-BLADE-SM Rack Mount Installation Items Rack Mount Ears (1U) Rack mount PSU tray (1 base station, 2U) 25 WATT Rack mount PSU tray (1 base station, 2U) 100 WATT Duplexer for PSUTRAY (specify frequencies – TSF only) Mains Cord for PSUTRAY (EU/UK/US - select country) TSF-EARS TSF-PSUTRAY TSF-2100PSUTRAY TSF-DUPxx (where xx = freq band) TSF-ACCORD-EU TSF-ACCORD-UK TSF-ACCORD-US 6.2.
6.2.3 TSF-EARS A pair of 1U Rack Mounting Ears with screws for the Blade Base Station. These must be used in conjunction with a rack-support 6.2.4 TSF-PROG The TSF Serial Programming Lead contains an RS232 level converter. Together with the adaptor (DB-9) it can be used to connect the Blade, via the front panel RJ45 connector, to a PC. 6.2.5 Blade Shelves Where a re-ordering enquiry is made with regard to Blade shelving, a qualified Project Engineer should be consulted to give advice.
XFIN-BLADE-SM PRODUCT VARIANTS AND ACCESSORIES PAGE 61
7 SPARES 7.1 SERVICE CONCEPT The Blade series has been designed to provide a low cost trunked and non-trunked, analogue, base station, using common core electronics, software and interfacing. It is a requirement that once the customer has purchased equipment, Team Simoco can follow this by providing ongoing, high level of customer support together with a competitive and professional servicing activity.
XFIN-BLADE-SM component level in CRU. available to CRU. 7.2 LEVEL -2 SPARES SCHEDULE 7.2.
Figure 6.1 Exploded Diagram of the Xfin Blade 7.2.2 Assembly Item List Part Number Part Description Quantity D116-0027-M-01 CASE BULKHEAD X/FIN 1 D116-0024-M-05 X-FIN FRONT PANEL (SOLID FRONT) 1 D116-0006-M-03 LID ASSY X/FIN 1 00601-0001630-0 M3X8 SCREW PAN HD POZI STL/S 2 00606-000540-0 M3 PLAIN WASHER STAINLESS/STL.
XFIN-BLADE-SM 00601-0000585-0 M3 X 30 POZI P/HEAD 6 00601-0000700-0 M4 X10 CSNK POZI 4 00601-0000760-0 M5 X20 POZI P/HD BZP 1 00602-0000120-0 M3 NUT BZP 8 00601-0001560-0 NUT M5 HEX STEEL ZINC PLATE 3 00606-0000220-0 M4 PLAIN WASHER BZP 2 00601-0001570-0 S/P W ASHER STEEL ZINC/P M4 2 00601-0000440-0 M3 X10 POZI P/HD BZP 2 00606-0000180-0 M3 PLAIN WASHER BZP 2 00601-0000650-0 M4 X 6 P/HD POZI 2 D111-0046-W-03 IEC CONN TO LAMBDA PSU CBL 1 00606-0000190-0 M3 S/P W ASHER BZP 4
7.3.3 Unpacking Equipment Any damaged or missing parts must be notified to Team Simoco or their agent in writing within 10 days of receipt. 7.4 SOFTWARE POLICY Software provided by Team Simoco shall remain the Company's property, or that of its licensors and the customer recognises the confidential nature of the rights owned by the Company.
XFIN-BLADE-SM SPARES PAGE 67
8 LCD MENU OPERATION 8.1 DEFAULT DISPLAY The LCD Display is a back-lit alphanumeric 2-line visual output which shows status, menu options and call activity. Immediately following power-up, the LCD indicates its progress through the boot-up procedure.
XFIN-BLADE-SM · moving the cursor to the tick mark at the side of the screen when all variables are altered and pressing to confirm (an ‘x’ on the other side of the screen can be selected to cancel the alteration). Where a variable can only be increased or decreased, no cursor, tick or ‘x’ symbols are present. 8.2.
9 PROGRAMM ER GUIDE 9.1 GETTING STARTED Ensure that the PC is connected to the Xfin Blade Management Terminal via a CAT 5 Ethernet cable or a RS232 Serial cable. This provides the communications link between the Xfin Blade Management Terminal and the Xfin Blade. 9.1.1 Main Screen The main menu by default displays clickable buttons of several configurable areas. Some areas will be hidden depending on whether the Xfin Blade Management Terminal is in Single Site or Multi Site.
XFIN-BLADE-SM 9.2.1 Creating a New Database Located across the top of the Main Menu form there is a menu bar. To create the new database click on Database tab, then select New from the drop down. A window will appear allowing a new database to be created in a location of choice. Use the save in drop down box to navigate to the area where the database is to be stored. Give the database a name using the File Name box and then click on save. Clicking on cancel instead would bring back the main menu form. 9.
· Flow Control – This is used to regulate the rate at which information is transferred from one device to another. To select a Flow Rate click on the arrow in the box to the right of Flow Rate and select a Flow Rate from the drop down list. Now that the Serial Communications setting have been configured click on Save & Exit to menu to the main menu. Alternatively click on refresh to set the setting back to what they were when the Communications Settings form was first opened. 9.3.
XFIN-BLADE-SM the Xfin Blade Management Terminal in to offline mode click on the small box in the status bar of the main menu until it says offline. · Live – When in live mode any changes that are made to the data contained in the Xfin Blade Management Terminal will also be sent to the Xfin Blade. To place the Xfin Blade Management Terminal in to Live mode make sure that the Live mode click on the small box in the status bar of the main menu until it says live. 9.
9.5.5 Get Record As long as the Xfin Blade Management Terminal has established a connection to an Xfin Blade Get Record will retrieve an update on the current selected record. To do a Get Record left click on the Get Record button located on the right hand side of the form. 9.5.6 Send Configuration As long as the Xfin Blade Management Terminal has established a connection to an Xfin Blade Send Configuration will send every record for the current area to an Xfin Blade.
XFIN-BLADE-SM PROGRAMMER GUIDE PAGE 75
Team Simoco Ltd, Field House, Uttoxeter Old Road, Derby DE1 1NH Tel: +44 (0) 1332 375500 FAX: +44 (0) 1332375501 www.teamsimoco.
XFIN-BLADE-SM A.
B.
XFIN-BLADE-SM C. RADIO FREQUENCY HAZARD INFORMATION RF Hazard Test conducted by EMC Technologies (NZ) Ltd - test report no. 70232.1. Report date: 26 March 2007. Test report is as follows: As per Section 1.1310 and Section 2.1091 certification of this transmitter is sought using the Controlled / Occupational exposure limits as detailed in OST/OET Bulletin Number 65 as a power of 100 watts is to be used in a fixed environment. Calculations have been made using the General Public/Uncontrolled Exposure limits.