Contents
- 1. User Manual
- 2. Appendix B Emission Designator Spec Change Update
Appendix B Emission Designator Spec Change Update
LRU User Manual March 2002 To contact SERCEL Nantes, France Commercial; Customer Support; Manufacturing & Repair. B.P. 439, 16 rue de Bel Air 44474 Carquefou Cedex Tel: +33 2 40 30 11 81, Fax: +33 2 40 30 19 48 Hot-Line: Land: +33 2 40 30 58 88 Marine: +33 2 40 30 59 59 E-mail: sales@sercel.fr customer.support@sercel.fr www.sercel.com St Gaudens, France Vibrator Customer Support; Vibrator Manufacturing & Repair; Streamer Manufacturing & Repair. Tel: +33 5 61 89 90 00, Fax: +33 5 61 89 90 45 Hot Line: +33 5 61 89 90 91 Alfreton, U. K. Streamer Manufacturing & Repair; Customer Support. Tel: +44 1 773 605 078, Fax: +44 1 773 541 778 Houston, USA Commercial; Customer Support; Manufacturing & Repair; Streamer Manufacturing & Repair. Tel: +1 281 492 66 88, Fax: +1 281 492 69 10 Hot-Line: +1 281 492 66 88 E-mail: sales.hou@sercelus.com training.hou@sercelus.com customer.support@sercelus.com Ponca City, USA Vibrator Customer Support; Vibrator Manufacturing & Repair. Tel: +1 580 763 00 00, Fax: +1 580 763 00 22 Moscow, Russia Commercial; Customer Support. Tel: +7 095 254 06 59, Fax: +7 095 254 66 80 Beijing, P. R. of China Commercial; Customer Support. Tel: +86 106 43 76 661, Fax: +86 106 43 76 307 Tanggu, P. R. of China Manufacturing & Repair. Tel:+86 222 58 23 224 , Fax:+86 222 58 23 242 Xian, P. R. of China Manufacturing & Repair. Tel: +86 297 85 25 05, Fax: +86 297 85 55 04 Singapore Streamer Manufacturing & Repair; Customer Support. Tel:+65 545 0411, Fax:+65 545 1418 Dehradun, India Customer Support. Tel: +91 135 773 387, Fax: +91 135 773 132 E-mail: sercel@nde.vsnl.net.in In no event shall SERCEL be liable for incidental or consequential damages or related expenses resulting from the use of this product, or arising out of or related to this manual or the information contained in it, even if SERCEL has been advised, or knew or should have known of the possibility of such damages. The information included in this documentation is believed to be accurate and reliable. However, SERCEL reserves the right to make changes to its products or specifications at any time, without notice, in order to improve design or performance and to supply the best possible product. This documentation does not form in any way a contractual agreement of sales promise on the part of SERCEL. Software mentioned in this documentation is sold under a precise licence agreement and as such the documentation may cover technical areas for which the user may not have a final licence. No part of this documentation, or any of the information included herein may be modified or copied in any form or by any means without the prior written consent of SERCEL. Acknowledgments: All brand or product names are trademarks or registered trademarks of their respective companies or organizations. LRU User Manual General The LRU (Line Remote Unit) relay is a long range point-to-point radio relay cell that can be inserted anywhere in a spread as an element of the 408UL network to relay the data transmission on a Line or a Transverse. It connects to any type of 408UL field electronics (LAUX, LAUL, FDU Link, etc.). Built in the LRU is a full performance LAUX. In the LRU transmission protocol (Half-duplex), time is shared between transmission of Master-to-Slave messages and transmission of Slaveto-Master messages. Master-to-Slave messages are called Network Control Sequences (NCS), used for synchronization, zero-time transmission and control. Slave-to-Master messages are called Data Transfer Sequences (DTS), used for data retrieval, seismonitor and collecting test results. 1-1 Typical setups Typical setups CAUTION If you wish to test a radio relay cell through a wireline link between the coaxial connectors of two LRUs, use a 60 dB (minimum), 20 W attenuator. Attenuator 20 W 60 dB min. (test setup) 12 V For optimal performance of the radio link, do not place any electric device (including LRU, FDPA408, etc.) on the same side as the radiating elements! LRU 12 V NO 12 V LRU 12 V The antenna should be at the top the mast. 8m Do not raise any antenna near electric power distribution lines! YES LRU LRU 12 V 12 V 1-2 Use the whole cable length to keep clear from the antenna. March 2002 LRU User Manual Typical setups CAUTION Antenna height is limited to 6.1 metre near airports. Below are typical examples of setups along with the associated specifications in terms of covered range and transmission capacity. Basic radio relay cell 7-element Yagi antenna LAUX and radio functions See 1 below Line or Transverse to Central Unit LRU 12 V LRU Coax downlead 12 V Battery Typical performance (Ground-Wave propagation above flat terrain): - Range: 24 km, 60 Ch @ 2 ms, Real time. - Range: 10 km, 240 Ch @ 2 ms, Real time. See CAUTION on page 1-2. For the Left/Right and Low/High ports of the LRU, connect as usual (Left to Right; Low to High). 1-3 Typical setups Radio relay in series connection To extend the relay range, you can use two relay cells in series connection as shown below. You can choose between two types of series setups, one with fewer antenna masts to raise, the other optimizing the data rate. • Two-mast series setup (high data rate) Requirements: - At least 300 m between antennas, - At least 13 MHz frequency separation. Line or Transverse to Central Unit LRU See 1 below See 1 below 12 V Battery LRU 12 V For optimal performance, use vertical polarization in one cell and horizontal in the other. LRU 12 V LRU 12 V Line or Transverse ports Typical performance of each relay cell (Ground-Wave propagation above flat terrain): - Range: 24 km, 60 Ch @ 2 ms, Real time. - Range: 10 km, 240 Ch @ 2 ms, Real time. Setups with more than two relay cells in series connection have not been tested yet. See CAUTION on page 1-2. 1-4 March 2002 LRU User Manual Typical setups • Single-mast series setup Line or Transverse to Central Unit LRU See 1 below See 1 below 12 V Battery LRU LRU 12 V 12 V LRU 12 V (Line or Transverse cable) Typical performance of each relay cell (in Ground-Wave propagation conditions above flat terrain): - Range: 24 km, 30 Ch @ 2 ms, Real time. - Range: 10 km, 120 Ch @ 2 ms, Real time. For the single-mast series setup, a special software configuration needs to be programmed in the LRUs, using an FDPA408 pocket terminal or the 408UL HCI workstation: in each intermediate pair, not to have one of the LRUs transmitting while the other is receiving, you must have them working on two distinct “Subframes”. That’s why the date rate is divided by two in the above example. See LRU Operational Description. 1-5 Typical setups Where more than two relay cells are used in “single-mast series connection”, you can avoid reducing the data rate any further if you still work with only two Subframes, provided adjacent relay locations do not use the same Subframe. In the example below, relay cell (A) can use the same Subframe as relay cell (C) if they are distant enough and if they use two separate frequency channels. (A) LRU 2 LRU 4 (C) LRU 1 (B) LRU 3 Relay Cell (A) (B) (C) 1-6 LRU No. Transmit on Subframe 1 ✔ ✔ LRU 6 LRU 5 Transmit on Subframe 2 ✔ ✔ ✔ ✔ March 2002 LRU User Manual Typical setups Radio relay with REM Requirements: - At least 300 m between antennas, - At least 13 MHz frequency separation. Line or Transverse to Central Unit LRU See 1 below SU6R 12 V LRU Battery 12 V REM (Transverse cable) SU6R SU6R Insert a bandpass cavity filter for each REM (case of multi-REM setup) and one more if Audio is used with SU6-R 12 V Typical performance of each relay cell (in Ground-Wave above flat terrain): - Range: 24 km, 60 Ch @ 2 ms, Real time. - Range: 10 km, 240 Ch @ 2 ms, Real time. The antenna of the REM and the antenna of the LRU attached to that REM can be mounted on the same mast, but in that case a minimum vertical separation of 30 metres (100 feet) should be provided. The rule is to have at least 80 dB attenuation between the two antennas to allow each system to work at its full sensitivity. The cavity filters for the REMs are still required. A REM upgrade may be required. See CAUTION on page 1-2. 1-7 Typical setups Requirements: - At least 300 m between antennas, - At least 13 MHz frequency separation. SU6R SU6R SU6R REM up to 24 km SU6R LRU LRU 12 V 12 V REM 12 V 12 V 1-8 March 2002 LRU User Manual Antennas Antennas The LRU is used as a point-to-point radio relay. For a stationary relay, directional antennas are used, allowing maximum performance and protection from interference. Where one of the two LRUs involved in a radio relay is subject to roving (Marine, Shalow-water operation, etc.) omni-directional antennas are more suitable. Directional antenna Below are the specifications of a wide-band, 7-element Yagi antenna available from SERCEL. This directional antenna can be used either horizontally or vertically. A 50-ohm impedance coax cable should be used to connect the antenna to the LRU. To increase the system performance, a low-attenuation, double-shield coax cable is recommended. Prior to using the antenna, especially after assembly, a VSWR check should be done, including the coax cable. The maximum VSWR within the bandwidth of interest should be less than 1.5:1 to work in good conditions. • Specifications • Type: Wideband 7-Element Yagi (Sercel P/N: 07-820070-001). • Frequency: 215 to 240 MHz. • Power Gain: 10.5 dBi, Center frequency. • VSWR: 1.6:1 Max. 1.3:1 Center frequency. • Front-to-back Ratio: 20.45 dB, Center frequency • 3-dB beamwidth: E = 48 degrees. H = 57 degrees 1-9 Antennas 1-10 • Feed Impedance: 50 ohm. • Connector type Type UHF. • Antenna Boom length: 1.9 m (75"). • Longest Element: 68 cm (26.772"). • Shortest Element: 48 cm (18.898''). • Weight: 900 g (2 lb). • Maximum mast OD: 5 cm (2"). March 2002 LRU Specifications GENERAL PHYSICAL Radio Functions Communication with another LRU for data transmission with error recovery and temporary storage Cable Functions full LAUX capabilities Tests capabilities Power supply Radio data transmission Cable data transmission Field tests Instrument tests Antenna spectrum monitoring capability Radio setup Pocket terminal connection capability Memory 4Mb local buffer for non-real time transmission mode Interval between LRU's or LRU and LAUX on transverse Up to 300 m with ST cable Up to 250 m with WPSR Up to 400 m with WPSRLR RADIO PERFORMANCES Radio link between LRU’s (Typical propagation condition, bit error rate better than 10-6, 8 m (26 feet) antenna mast, Yagi type antenna) - 16 km (10 miles) up to 240 Channels (*) @2ms sample rate real time retrieval. - 24 km (15 miles) up to 60 Channels (*) @2ms sample rate real time retrieval. RF Characteristics : RF Frequencies RF Output Power RF Output Impedance FCC Emission Designators USA use : limited to 216 MHz to 218 MHz and 219 MHz to 220 MHz Canadian use : limited to 217 MHz to 218 MHz and 219 MHz to 220 MHz Other countries : in respect with local regulation Overall capability : 215 MHz to 250 MHz RF power management ; 6W nominal 50 Ω 250KD1D and 800KD1D CABLE PERFORMANCES (Typical @ 2 ms sample rate and 25°C) Maximum number of FDU's per LRU : - 120 with up to 30 m interval - 96 with up to 55 m interval - 80 with up to 75 m interval Maximum number of FDU's between LRU's or between LRU and LAU : - 60 with up to 30 m interval - 48 with up to 55 m interval - 40 with up to 75 m interval (*) the number of channels increases proportionally with the ratio : (shot cycle time) / (acquisition time). Material Dimension and Weights Size Weigths Aluminium 380x380x225 mm (14.9x14.9x8.8 in) 12.6 kg (27.8 lbs) Power Operating Power Voltage 10.5 to 15 VDC, 2 battery connectors, to allow uninterrupted operation during battery replacement Power consumption Master : 23 W Slave : 80 W when retrieving Sleep : 1,2 W Operating Temperatures -40°C to 70°C Storage Temperatures -40°C to 70°C Water Depth 1.5 m
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