® ION -U ION-U L 7/80-85/17(E)P/19P Manual MF0200A5C
DISCLAIMER: This document has been developed by CommScope, and is intended for the use of its customers and customer support personnel. The information in this document is subject to change without notice. While every effort has been made to eliminate errors, CommScope disclaims liability for any difficulties arising from the interpretation of the information contained herein.
Table of Contents TABLE OF CONTENTS 1. GENERAL 7 1.1. USED ABBREVIATIONS 7 1.2. HEALTH AND SAFETY 8 1.3. PROPERTY DAMAGE WARNINGS 8 1.4. COMPLIANCE 9 1.5. ABOUT COMMSCOPE 13 1.6. INTERNATIONAL CONTACT ADDRESSES FOR CUSTOMER SUPPORT 14 2. INTRODUCTION 16 2.1. PURPOSE 16 2.2. ION-U LOW POWER REMOTE UNITS 16 3. FUNCTIONAL DESCRIPTION 17 3.1. GENERAL 17 3.2. SISO AND MIMO OPERATION 18 3.3. ION-U LOW POWER RU PORTS 19 4. COMMISSIONING 21 4.1.
Table of Contents 4.2.7. 4.2.8. 4.2.9. 4.2.10. 4.2.11. Coupling probe Expansion ports connections Alarm port Pwr/Ctrl port Control connector RS-232 - Local Interface 45 46 46 47 47 4.3. 4.3.1. 4.3.2. LOW POWER RU OPTICAL INSTALLATION Optical-fiber-cable connection - rules Optical cable installation 48 48 50 4.4. 4.4.1. 4.4.2. ACCESSORY EQUIPMENT INSTALLATION – SPLICE BOX SISO installation MIMO installation 53 54 55 4.5. 4.5.1. 4.5.2. 4.5.3.
Figures and Tables FIGURES AND TABLES figure 3-2 Remote Unit, SISO ..................................................................................... 18 figure 3-3 Remote Unit, MIMO two units paired ......................................................... 18 figure 3-4 One RU one EU one antenna .................................................................... 18 figure 3-5 Two RUs one EU two antennas .................................................................
Figures and Tables figure 5-9 Reconnect mains power ............................................................................. 63 figure 6-1 ION-U Low Power RU mounting bracket ................................................... 64 figure 6-2 ION-U Low Power Unit dimensions ........................................................... 64 figure 6-3 Installation drawing of ION-U L Unit SISO ................................................. 65 figure 6-4 Installation drawing of ION-U L Unit MIMO ............
1. General 1. General 1.1.
1. General 1.2. Health and Safety 1. Danger: Electrical hazard. Danger of death or fatal injury from electrical current. Obey all general and regional installation and safety regulations relating to work on high voltage installations, as well as regulations covering correct use of tools and personal protective equipment. 2. Danger: Electrical hazard. Danger of death or fatal injury from electrical current inside the unit in operation. Before opening the unit, disconnect mains power. 3.
1. General 6. Notice: Keep operating instructions within easy reach and make them available to all users. 7. Notice: Read and obey all the warning labels attached to the unit. Make sure that all warning labels are kept in a legible condition. Replace any missing or damaged labels. 8. Notice: Only license holders for the respective frequency range are allowed to operate this unit. 9.
1. General 3. Notice: Installation of this equipment is in full responsibility of the installer, who has also the responsibility, that cables and couplers are calculated into the maximum gain of the antennas, so that this value, which is filed in the FCC Grant and can be requested from the FCC data base, is not exceeded. The industrial boosters are shipped only as a naked booster without any installation devices or antennas as it needs for professional installation. 4.
1. General 6. Notice: The unit complies with Overvoltage Category II. It also complies with the surge requirement according to EN 61000-4-5 (fine protection); however, installation of an additional medium (via local supply connection) and/or coarse protection (external surge protection) is recommended depending on the individual application in order to avoid damage caused by overcurrent.
1. General Equipment Symbols Used / Compliance Please observe the meanings of the following symbols used in our equipment and the compliance warnings: Symbol Compliance --- FCC CE Meaning / Warning For industrial (Part 20) signal booster: WARNING: This is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and QUALIFIED INSTALLERS. You MUST have an FCC LICENSE or express consent of an FCC Licensee to operate this device.
1. General 1.5. About CommScope CommScope is the foremost supplier of one-stop, end-to-end radio frequency (RF) solutions. Part of the CommScope portfolio are complete solutions for wireless infrastructure from top-of-the-tower base station antennas to cable systems and cabinets, RF site solutions, signal distribution, and network optimization. For patents see www.cs-pat.com. CommScope has global engineering and manufacturing facilities.
1. General 1.6. International Contact Addresses for Customer Support Canada United States CommScope Canada Andrew LLC, A CommScope Company Mail 505 Consumers Road, Suite 803 Toronto M2J 4V8, Canada Mail 620 North Greenfield Parkway Garner, NC 27529, U.S.A. Phone +1-905-878-3457 (Office) +1-416-721-5058 (Cell) Phone +1-888-297-6433 Fax +1-905-878-3297 A Fax E-mail wisupport@commscope.com Caribbean & South American Region CommScope Cabos do Brasil Ltda.
1. General United Kingdom Scandinavia Andrew Wireless Systems UK Ltd Andrew Norway (AMNW) Mail Unit 15, Ilex Building Mulberry Business Park Fishponds Road Wokingham Berkshire RG41 2GY, England Mail P.O. Box 3066 Osloveien 10 Hoenefoss 3501 Norway Phone +44-1189-366-792 Phone + 47 32-12-3530 Fax +44-1189-366-773 Fax + 47 32-12-3531 E-mail wisupport.uk@commscope.com E-mail wisupport@commscope.
2. Introduction 2. Introduction 2.1. Purpose Mobile telephone and public safety systems transmit signals in two directions between base transceiver station (BTS) and mobile stations (MS) within the signal coverage area to carry voice and data traffic. If weak signal transmissions occur within the coverage area because of indoor applications, topological conditions or distance from the transmitter, extension of the transmission range can be achieved by means of an optical distributed antenna system (DAS).
3. Functional Description 3. Functional Description 3.1.
3. Functional Description 3.2. SISO and MIMO Operation The architecture of the ION-U low power supports both SISO and MIMO operation. MIMO operation is achieved by pairing two RUs. The following figures show views of a single Remote Unit for SISO applications and two Remote Units paired for MIMO applications.
3. Functional Description figure 3-4 Two RUs one EU two antennas 3.3. ION-U Low Power RU Ports The RF, optical, mains power, alarm, power control, and expansion ports are located on the bottom of the RU.
3. Functional Description Mains Connector The RU receives its power through the Mains connector A . The type of connector is dependent on the RU model. A 4-pin Amphenol connector is used for AC models and standard DC models. A 7-pin Amphenol connector is used for DC models powered by a dual cable supply. Antenna Port The RU has one duplex 4.3-10 (1-st generation RUs: N-female) antenna port C for transmitting and receiving signals to and from distributed antennas.
4. Commissioning 4. Commissioning Read and observe the health and safety and property damage warnings as well as the description carefully to avoid mistakes and proceed step-by-step as described. Attention: Do not operate the Remote Unit without terminating the antenna connectors. The antenna connectors may be terminated by connecting them to their respective antennas or to a dummy load.
4. Commissioning 5. Notice: If any different or additional mounting material is used, ensure that the mounting remains as safe as the mounting designed by the manufacturer. The specifications for stationary use of the Unit must not be exceeded. Ensure that the static and dynamic strengths are adequate for the environmental conditions of the site. The mounting itself must not vibrate, swing or move in any way that might cause damage to the Unit.
4. Commissioning 4.1.3.2. Mount to a pole Mounting kits are available for poles from 4“ to 18” (10.2 cm to 45.8 cm) and for 40” (1 m). 1. Mount the mounting bracket to the four screw pins of the two pole-mounting brackets with M6 plain washers (9), split lock washers (10) and self lock nuts (8). 4x 9 10 8 2. Screw a M8 nut (4) to one end of each of the eight threaded bolts and slide a plain washer (5) on the bolt. 5 4 3.
4. Commissioning 4. Mount the pole-mounting kit with the two brackets and M8 plain washers (5), split lock washers (6), and self lock nuts (7) to the pole. 5 6 7 Take care to mount the brackets congruently and not at an angle. figure 4-2 Pole-mounting kit 4" to 18" Mounting the 40” pole-mounting kit is similar, except: the pole-mounting bracket provides no screw pins, but the mounting bracket is fastened with four screws M8 x 25 (2) and M8 self lock nuts (3).
4. Commissioning 4.1.4. Threaded pins 1. Attach an M6 threaded pin to the unit by inserting it into the threaded hole adjacent to the power supply and turning it clockwise. Tighten the pin securely with a socket wrench. M6 threaded pin figure 4-4 RU threaded pin power supply side 2. Attach an M6 threaded pin to the nit by inserting it into the threaded hole above the handle and turning it clockwise. Tighten the pin securely with a socket wrench.
4. Commissioning 4.1.5. Wall mounting procedure – Single Unit (SISO) 1. Follow the instructions for mounting the bracket and installing the threaded pins in chapter 4.1.3. 2. Install the unit on the wall-mounting bracket by lifting it into place and using both handles and lowering it down onto the bracket. The M6 pins must align with the slots in the bracket to support the unit. figure 4-6 Place RU onto wall mounting bracket – single mount Page 26 MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning 3. Fasten the lower section of the unit to the bracket using a washer and an M6x12 screw (on both sides). Slide a washer over each screw and then insert the screw and tighten it securely. Washer M6x12 screw figure 4-7 Install M6x12 screws and washers for single mount 4. Fasten the unit to the bracket using a washer and M6 nut. Slide the washer over the threaded pins that you installed previously (chapter 4.1.3) and then screw the nut onto the pins (on both sides) and tighten securely.
4. Commissioning figure 4-9 Completed SISO RU mount 4.1.6. Wall mounting procedure – Dual Units (MIMO) For MIMO operation, two LP RUs are mounted on a single wall bracket. 1. Follow the instructions for mounting the bracket and installing the threaded pins in chapter 4.1.3. 2. Install the first Remote Unit on the wall-mounting bracket by lifting the RU into place and lowering it down onto the bracket. The M6 pins must align with the slots in the bracket to support the RU.
4. Commissioning figure 4-10 1st RU placed on wall mounting bracket - MIMO 3. Fasten the lower section of the first RU to the bracket using a washer and an M6x12 screw (on both sides). Slide a washer over each screw and then insert the screw and tighten it securely. Washer M6x12 screw figure 4-11 Install M6x12 screws and washers 4. Fasten the RU to the bracket using a washer and M6 nut. Slide the washer over the threaded pins that you installed previously (chapter 4.1.
4. Commissioning Washer M6 Nut figure 4-12 Attach M6 nut to threaded pins 5. Install the second RU on the wall-mounting bracket by lifting the RU into place and lowering it down onto the bracket. The 2nd RU is reversed in direction from the 1st RU. The M6 pins must align with the slots in the bracket to support the RU. figure 4-13 2nd RU on wall mounting bracket 6. Fasten the lower section of the second RU to the bracket using a washer and an M6x12 screw (on both sides).
4. Commissioning Washer M6x12 screw figure 4-14 Install M6x12 screws and washers 2nd RU 7. Fasten the RU to the bracket using a washer and M6 nut. Slide the washer over the threaded pins that you installed previously (chapter 4.1.3) and then screw the nut onto the pins (on both sides) and tighten securely. Washer M6 Nut figure 4-15 Attach M6 nut to threaded pins for 2nd RU 8. Confirm that all screws and nuts have been fastened and the unit is securely mounted to the wall.
4. Commissioning figure 4-16 Completed MIMO RU mount 4.1.7. Pole mounting procedure – SISO and MIMO The pole mounting procedures are identical to the wall mounting procedures described in chapters 4.1.5 Wall mounting procedure – Single Unit (SISO) and 4.1.6 Wall mounting procedure – Dual Units (MIMO), except for the mounting of the mounting bracket described in chapter 4.1.3.2 Mount to a pole. Page 32 MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning 4.2. Low Power RU Electrical Installation 4.2.1. Health and Safety for electrical installation Read and observe chapter 1.2 Health and Safety. 1. Danger: Electrical hazard. Danger of death or fatal injury from electrical current. Obey all general and regional installation and safety regulations relating to work on high voltage installations, as well as regulations covering correct use of tools and personal protective equipment. 2. Danger: Electrical hazard.
4. Commissioning 8. Notice: Use an appropriate torque wrench for the coupling torques: - for N-type connectors (2 N-m / 20 in lb) with 13/16 in opening, e. g. item no. 244379 available from the CommScope e-catalog - for 4.3-10 type connectors (5 N-m, 44 in lb) with 22mm (7/8) in opening Do NOT use your hands or any other tool (e.g. a pair of pliers). This might cause damage to the connector and lead to a malfunction of the unit. 9.
4. Commissioning 4.2.3. Connections Port/Conn MAINS (Vac/Vdc) Grounding Bolts ANT RF PROBE LOCAL RS-232 STATUS PWR/CTRL ALARM EXPANSION UL EXPANSION DL OPTICS UL OPTICS DL MAINS (Vdc/100) ION-U Low Power RU Connectors/Indicators Purpose This connector provides the power to RU models that use standard AC (85 to 265 Vac) or RU models that use standard DC (-60 to -38 Vdc) power. Ground (earth) bolts for connecting the mandatory ground cable to the RU.
4. Commissioning 4.2.4. Grounding (Earthing) The RU must be grounded (earthed). 1. Connect an earth-bonding cable to the grounding bolt connection provided on the outside of the unit (near the Mains connector) as shown in figure 4-17. Do not use the grounding connection to connect external devices. figure 4-17 Grounding bolts figure 4-18 Grounding bolt, schematic view 2. After loosening the hex nut(s), connect the earth-bonding cable between the two washers as illustrated in the figures above. 3.
4. Commissioning 4.2.5. Mains power connection Before connecting electrical power to the units, the system must be grounded (earthed) as described in the previous chapter. The Mains power must be connected to the Mains connector of the unit for operation of the RU. A power cable is delivered with each RU. The type of power cable delivered is dependent on the type of power supply in the unit. The AC power cable is a 3.2 m (10.
4. Commissioning The Vdc/100 power cable is available for locations where the power drawn on each cable must be limited to a maximum of 100 VA. This cable is a 3.2 m (10.5 ft) 16 AWG cable with a 7-pin Amphenol C016 series plug on one end to connect to the RU Mains connector. The other end of the cable is un-terminated with 4 end splices to connect to the -48 Vdc power source.
4. Commissioning 4. Wire the power cable to the junction box or receptacle. Refer to the color code and pin numbers shown in figure 4-19 (AC cable), figure 4-20 (DC cable), or figure 4-21 (Vdc/100 cable) depending on the type of power supply used by the unit. 5. With the cable’s Mains plug disconnected from the RU, turn the circuit breaker on, unscrew the plug’s protective cover, and carefully test the plug with a voltmeter to ensure that the voltage and polarity are correct. 6.
4. Commissioning The selection of cable and antenna is an important consideration. Choose the type of cable best suited for the antenna. Consider that a cable with higher loss is less expensive but impairs performance. Notice: Use an appropriate torque wrench for the coupling torques: - for N-type connectors (2 N-m / 20 in lb) with 13/16 in opening, e. g. item no. 244379 available from the CommScope e-catalog - for 4.
4. Commissioning 2. Remove protective cap from the RF connector. Caution: Risk of injury by flying particles when compressed air is used. Wear protective clothing, especially protective glasses. 3. Remove metal chips and small particles from the mating and inner surfaces of the connector using compressed air. Warning: Flammable material. Risk of fire. Keep away from sources of ignition. Caution: Eye irritant product. Risk of eye irritation. Avoid contact with eyes and skin.
4. Commissioning 5. Clean the lip of the inner ring with a cotton bud drenched with isopropyl alcohol. 6. Clean the inside surface of the inner ring with a cotton bud drenched with isopropyl alcohol. 7. Clean the inside of the center conductor spring tines with a cotton bud drenched with isopropyl alcohol. 8. Clean in the similar way the connector of the connected cable. Remove protective caps from the unit connector first. Page 42 MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning 9. Remove metal chips and small particles from the mating and inner surfaces of the connector using compressed air. 10. Continue with the winding area using lint-free wipe drenched with isopropyl alcohol. 11. Continue with the inside mating surface of the inner ring. 12. Clean the outside surface of the center pin. MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning 4.2.6.2. Antenna cable connector assembly 1. What is needed for the connector assembly? a. Torque wrench. b. (Adjustable) counter wrench 2. Join the connectors and turn the coupling nut until the thread grips. 3. Push in the connector until it clicks. 4. Fasten the coupling nut hand-tight. Do not turn the connector but the coupling nut only. Page 44 MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning 5. Retain the cable connector with the counter wrench and fasten the Torque wrench coupling nut with the torque wrench until the torque is applied (torque wrench clicks). Counter wrench For angled antenna connectors use your hand to retain the cable connector and fasten the coupling nut with the torque wrench. Make sure only the coupling nut is turned, not the cable connector. Antenna cable figure 4-23 Antenna connection 4.2.7.
4. Commissioning 4.2.8. Expansion ports connections The Expansion ports are QMA-F connectors that are used to connect to an Extension Unit to provide additional bands of coverage. The cables (1.5 m) required are included in the EU delivery 1. Connect an RF cable with QMA male connectors between the UL Expansion port connector of the RU to the UL port of the Extension Unit. Press the QMA connector of the cable onto the UL port of the RU until it clicks into place to connect the cable. 2.
4. Commissioning 4.2.10. Pwr/Ctrl port The Pwr/Ctrl port is used to handle an optional fan unit. The connector will provide power to the fan unit and will allow the RU to control the fan speed. The connector is a 7-pin Binder 712 series connector. 7 7-Pin Binder 712 Series Pin Assignment 1 +V_FAN 2 Fan1 Alarm In 3 Fan1 (PWM) Out 4 GND_FAN 5 Fan2 Alarm In 6 Fan2 (PWM) Out 7 n.c 1 figure 4-26 Pwr/Ctrl connector table 4-7 Pwr/Ctrl connector 4.2.11.
4. Commissioning 4.3. Low Power RU Optical Installation 4.3.1. Optical-fiber-cable connection - rules Main optical system parameters: Fiber: Single mode fiber, type is 9.5/125 µm Fiber-cable connectors LC/APC ION-U system: Note: The pigtails for the connection between Master Unit and Remote Unit must have a sufficient length. Protection for the optical fibers must be provided where the fibers feed into the units.
4. Commissioning Fiber-System Installation: Fiber-cable connectors have to be of the same type (LC/APC) as the connectors used for the unit. The fiber-optic cables are connected to the optical transceiver. Notice: Angled connectors are not compatible with straight optical connectors; noncompatibility of connectors will result in permanent damage to both connectors. Before connecting the fiber cables, follow the procedure below to ensure optimized performance.
4. Commissioning When you clean fiber components, always complete the following steps carefully: Caution: Laser radiation. Risk of eye injury in operation. Do not stare into the beam; do not view it directly or with optical instruments. 1. Turn off the ION-U system (laser sources) before you inspect fiber connectors. 2. Check the connectors or adapters with a fiberscope before cleaning. 3. If the connector is dirty, clean it with a lint-free wipe (dry cleaning). 4. Inspect the connector. 5.
4. Commissioning Remove the sealing nut from the optical cable gland at the bottom of the RU. Optical connectors Sealing nut figure 4-29 Remove sealing nut Remove the split-seal and clamp jacket. Sealing nut Clamp jacket Split-seal figure 4-30 Split-seal and clamp jacket Insert the optical cables through the sealing nut and the clamp jacket. Then insert the optical cables through the connector socket into the cabinet. MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning Connect the optical cables to the proper UL and DL LC/APC connectors. Connect LC/APC optical cables figure 4-31 Optical cables connected Separate the two halves of the split-seal. Place both cables into the grooves of each half of the split-seal. Insert the spit seal into the clamp jacket.
4. Commissioning figure 4-33 Optical cable installed Re-assemble the optics metal cover and tighten the four screws that were loosened in step 1. 4.4. Accessory Equipment Installation – Splice Box For the installation and connection of optical and electrical cables a splice box is available, both for SISO and MIMO installations. The splice box is capable of holding up to two composite cables (optical and electrical), two electrical cables and four optic fiber cables.
4. Commissioning 4.4.1. SISO installation 1. Hang the splice box to the mounting bracket to the right-hand side of the RU. 2. Open the splice box by unscrewing the six neck screws. 3. Use the upper hole and the hole to the right-hand side to fasten the splice box to the mounting bracket with two M4 x 25 pan head screws. Page 54 MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning 4.4.2. MIMO installation 1. First break the left-hand side hook of the splice box bracket. This is necessary for proper mounting. 2. Hang the splice box to the mounting bracket to the left-hand side of the RUs. 3. Open the splice box by unscrewing the six neck screws. 4. Use the upper hole and the hole to the left-hand side to fasten the splice box to the mounting bracket with two M4 x 25 pan head screws. MF0200A5C_ION-U_L_7_80-85_17EP_19P.
4. Commissioning 4.5. Low Power RU Alarms 4.5.1. Bite and alarms The Built-In Test concept comprises the monitoring of the power supplies, the power amplifiers, and the optical interface. All alarms that occur can be checked via software at the Master Unit. 4.5.2. Handling of alarms As soon as the software acknowledges a valid alarm, a message is transmitted to the master unit. If the reason for the alarm has been cleared or if the alarm should continue, a new alarm message will not be repeated.
4. Commissioning 4.5.3. Status LED alarms For local supervision, a status LED on the connector panel of the Remote Unit adjacent to the Expansion ports provides a visual warning of an alarm condition. The color of the LED indicates the severity of the alarm. Detailed alarm information is available through the ION-U software interface. This table lists the alarm conditions and possible on-site measures that could be performed to resolve the issues responsible for triggering the alarms.
4.
5. Low Power RU Maintenance 4.7. Troubleshooting The status of the Remote Unit can be checked via the master unit (for details please refer to the ION-U software manual). Locally, the status can be checked at the LED, see chapter 4.5.3 Status LED alarms. 5. Low Power RU Maintenance 5.1. General Read and observe chapter 1.2 Health and Safety. Note: The Remote Unit does not require preventative maintenance measures.
5. Low Power RU Maintenance 5.2. RU Power Supply Replacement The power supply for the RU is a field replaceable module. The type of power supply used by the unit (AC, DC, or Vdc/100) is dependent on the model number. Attention: Before starting any maintenance on the RU, read and observe chapter 1.2 Health and Safety and the electrical installation information in chapter 4.2.1 Health and Safety for electrical installation. 1. Danger: Electrical hazard.
5. Low Power RU Maintenance 3. Locate the power supply on the right side of the Remote Unit. Power supply figure 5-2 RU power supply location 4. Use a #2 Phillips head or slotted screwdriver to loosen the 8 universal slot/Phillips captive power supply screws and carefully remove the supply. The weight of the power supply must be supported as you loosen the screws to prevent damage to the supply. Loosen 8 universal slot/Phillips screws Mains connector figure 5-3 8 RU power supply screws 5.
5. Low Power RU Maintenance 6. Locate the input cable connector for the power supply on the right side of the supply. 7. Loosen the 3 Phillips head terminal screws and remove the connector. figure 5-5 RU power supply input cable 8. Locate the output connector for the power supply on the left side of the supply. 9. Loosen the 2 Phillips head screws and remove the output connector. figure 5-6 RU power supply output cable 10. Remove the defective supply.
5. Low Power RU Maintenance 11. Replace the defective power supply with the new power supply. It is very important to confirm that the replacement supply is the same type as the original supply. The AC, DC, and Vdc/100 supplies are not interchangeable. 12. Reconnect the input and output connectors, and tighten the associated terminal screws. 13. Insert the power supply into the RU carefully to avoid damaging any cables.
6. Appendix 6. Appendix 6.1. Illustrations figure 6-1 ION-U Low Power RU mounting bracket figure 6-2 ION-U Low Power Unit dimensions Page 64 MF0200A5C_ION-U_L_7_80-85_17EP_19P.
6. Appendix figure 6-3 Installation drawing of ION-U L Unit SISO figure 6-4 Installation drawing of ION-U L Unit MIMO MF0200A5C_ION-U_L_7_80-85_17EP_19P.
7. List of Changes 6.2. Specifications This manual is valid for the following Remote Unit: ID No 7669582-xxxx* 7669582-0001 7669582-0002 7669582-0003 7669582-0007 7669582-0008 7669582-0009 Denomination ION-U L 7/80-85/17P/19P ION-U L 7/80-85/17P/19P-VAC ION-U L 7/80-85/17P/19P-VDC ION-U L 7/80-85/17P/19P-VDC/100 ION-U L 7/80-85/17EP/19P-VAC ION-U L 7/80-85/17EP/19P-VDC ION-U L 7/80-85/17EP/19P-VDC/100 * The xxxx suffix is the identifier for the specific configuration of the Remote Unit.
8. Index 8. Index A I Alarm ...................................................................... 35 Alarm port ............................................................... 46 Alarms Bite and Alarms ................................................. 56 External Inputs .................................................. 58 Handling of Alarms ............................................ 56 Status LED ........................................................ 57 Ant RF ......................................