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1 | User Manual | Users Manual | 1.58 MiB | December 06 2019 |
User Manual Copyright Information Hytera is the trademark or registered trademark of Hytera Communications Corporation Limited (the Company) in PRC and/or other countries or areas. The Company retains the ownership of its trademarks and product names. All other trademarks and/or product names that may be used in this manual are properties of their respective owners. The product described in this manual may include the Companys computer programs stored in memory or other media. Laws in PRC and/or other countries or areas protect the exclusive rights of the Company with respect to its computer programs. The purchase of this product shall not be deemed to grant, either directly or by implication, any rights to the purchaser regarding the Companys computer programs. Any of the Companys computer programs may not be copied, modified, distributed, decompiled, or reverse-engineered in any manner without the prior written consent of the Company. Disclaimer The Company endeavors to achieve the accuracy and completeness of this manual, but no warranty of accuracy or reliability is given. All the specifications and designs are subject to change without notice due to continuous technology development. No part of this manual may be copied, modified, translated, or distributed in any manner without the express written permission of us. We do not guarantee, for any particular purpose, the accuracy, validity, timeliness, legitimacy or completeness of the Third Party products and contents involved in this manual. If you have any suggestions or would like to learn more details, please visit our website at:
http://www.hytera.com. FCC Statement This is A 90.219 CLASS A DEVICE. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates and can radiate radio frequency energy. If not installed and used in accordance with the instructions, it may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. Verification of harmful interference by this equipment to radio or television reception can be determined by turning it off and then on. The user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a different circuit to that of the receiver's outlet. Consult the dealer or an experienced radio/TV technician for help. Operation is subject to the following two conditions:
This device may not cause harmful interference. This device must accept any interference rece ived, including interference that may cause undesired operation. Note: Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 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. You MUST register Class B signal boosters (as defined in 47 CFR 90.219) online at www.fcc.gov/signal-boosters/registration. Unauthorized use may result in significant forfeiture penalties, including penalties in excess of $100,000 for each continuing violation. Operational Instructions and Training Guidelines To ensure optimal performance and compliance with exposure limits in the above standards and guidelines, users should the general/Uncontrolled environment RF energy always adhere to the following procedures:
Antenna gain must not exceed 2dBi. The antenna must be installed complying with the requirements of manufacturer or supplier, and it must be at least 0.65 meters away from human body. Compliance with RF Exposure Standards Hytera's radio complies with the following RF energy exposure standards and guidelines:
United States Federal Communications Commission, Code of Federal Regulations; 47 CFR 1.1307, 1.1310 and 2.1091 American National Standards Institute (ANSI) / Institute of Electrical and Electronic Engineers (IEEE) C95. 1:2005; Canada RSS102 Issue 5 March 2015 Institute of Electrical and Electronic Engineers (IEEE) C95.1:2005 Edition ISEDC Statement This device complies with Innovation, Science and Economic Development Canada Compliance license-exempt RSS standard(s). Operation is subject to the following two conditions:
This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. ISEDC Radiation Exposure Statement:
This device must be restricted to work relate d operations in an exposure Environment. General/Uncontrolled RF This equipment should be installed and operated with minimum di antenna & your body. stance 65cm between the ISEDC exposition aux radiations:
gnral/Incontrle. Ce dispositif doit tre limit aux oprations lies au travail dans un environnement d'exposition RF Cet quipement doit tre install et utilis avec un minimum antenne et votre corps. WARNING:
de 65cm de dist ance entre le This is NOT a CONSUMER device. It is designed for installation by an installer approved by an ISED licensee. You MUST have an ISED LICENCE or the express consent of an ISED licensee to operate this device. User Manual Contents Contents Documentation Information ..................................................................................................................... 1 1. Introduction ........................................................................................................................................... 3 1.1 Product Description ........................................................................................................................... 3 1.2 Highlights ........................................................................................................................................... 3 1.3 System Architecture ........................................................................................................................... 3 1.3.1 Star Topology ........................................................................................................................... 4 1.3.2 Chain Topology ........................................................................................................................ 5 1.3.3 Ring Topology .......................................................................................................................... 5 1.3.4 Hybrid Topology ....................................................................................................................... 6 1.4 Specifications .................................................................................................................................... 6 2. Packing List ......................................................................................................................................... 10 2.1 Cable-access Donor Unit ................................................................................................................. 10 2.2 Wireless-access Donor Unit ............................................................................................................ 10 2.3 Remote Unit ..................................................................................................................................... 10 3. Getting Started .................................................................................................................................... 11 3.1 Appearance ..................................................................................................................................... 11 3.2 Donor Unit Interfaces ....................................................................................................................... 12 3.2.1 Cable-access Donor Unit ....................................................................................................... 12 3.2.2 Wireless-access Donor Unit .................................................................................................. 13 3.3 Remote Unit Interfaces .................................................................................................................... 13 3.4 Interface Description ........................................................................................................................ 14 3.5 Interface Definition ........................................................................................................................... 15 3.6 LED Indicators ................................................................................................................................. 16 4. Installation ........................................................................................................................................... 18 4.1 Safety Information ............................................................................................................................ 18 4.2 Installation Flow ............................................................................................................................... 19 4.3 Preparation ...................................................................................................................................... 19 4.3.1 Environment .......................................................................................................................... 20 4.3.2 Instruments and Tools ............................................................................................................ 21 4.3.3 Material Preparation .............................................................................................................. 21 4.4 Installing the Units ........................................................................................................................... 21 4.4.1 Installation Parts .................................................................................................................... 22 4.4.2 Installing the Product ............................................................................................................. 22 4.4.3 Cabling .................................................................................................................................. 27 4.5 Post-installation Check .................................................................................................................... 34 4.5.1 Checking the Installation........................................................................................................ 34 4.5.2 Checking the Device with Power On ..................................................................................... 34 i Contents User Manual 5. Power On and Power Off .................................................................................................................... 36 5.1 Powering On .................................................................................................................................... 36 5.2 Powering Off .................................................................................................................................... 36 6. Debugging ........................................................................................................................................... 37 6.1 Preparation ...................................................................................................................................... 37 6.2 Procedure ........................................................................................................................................ 37 6.2.1 Querying Parameters ............................................................................................................ 39 6.2.2 Setting Parameters ................................................................................................................ 39 6.2.3 Upgrade ................................................................................................................................. 41 6.2.4 Exporting the Logs ................................................................................................................. 42 7. System Maintenance ........................................................................................................................... 43 7.1 Care and Cleaning ........................................................................................................................... 43 7.2 Routine Maintenance ....................................................................................................................... 43 7.3 Alarm Handling ................................................................................................................................ 44 7.4 Troubleshooting ............................................................................................................................... 45 8. Appendix: Parameters ........................................................................................................................ 46 ii User Manual Documentation Information Documentation Information This section describes the audiences, conventions and revision history of this document. Intended Audience This document is intended to be read by:
Sales engineers Common users Documentation Conventions Icon Conventions Icon Tip Description Indicates information that can help you make better use of your product. Note Indicates references that can further describe the related topics. Caution Indicates situations that could cause data loss or equipment damage. Warning Indicates situations that could cause minor personal injury. Danger Indicates situations that could cause major personal injury or even death. Notation Conventions Item Description Example Boldface Denotes menus, tabs, parameter names, window names, dialogue names, and hardware buttons. To save the configuration, click Apply. The Log Level Settings dialogue appears. Press the PTT key.
" "
Denotes messages, directories, file names, The screen displays "Invalid!"
1 Documentation Information User Manual Item Description Example folder names, and parameter values. Open "PDT_PSS.exe". Go to "D:/opt/local". In the Port text box, enter "22".
>
Directs you to access a multi-level menu. Go to File > New. Italic Denotes document titles. Courier New Denotes commands and their execution results. For details about using the DWS, refer to Dispatch Workstation User Guide. To set the IP address, run the following command:
vos-cmd - m name IP Revision History Document Version Product Version Release Date V1.0 August 2018 Description Added descriptions on digital repeaters of low configuration. Added detail steps in Setting Parameters. V1.0 V1.0 V1.0 May 2018 Added contents on the wireless-access donor unit and band-selective repeater. March 2018 Modified the names of several devices. January 2018 Initial release. 2 03 02 01 00 User Manual Introduction 1. Introduction 1.1 Product Description DS-9300 Digital Repeater ("DS-9300") is the new generation of repeater developed by Hytera. Using optical fibers to transmit signal, DS-9300 effectively makes up for the signal decline between base stations
(BSs) and radios. Featuring low transmission loss and easy wiring, DS-9300 delivers long distance transmission of multicarrier signals and strong and dynamic signal coverage. It is an ideal solution to blind zones such as populated urban areas, large exhibition halls, stadiums, campuses, tunnels, metro stations and etc. DS-9300 has two types of configurations, including low configuration and high configuration, which have the same appearance but different features. 1.2 Highlights DS-9300 has the following highlights:
Flexible monitoring DS-9300 provides remote monitoring (through IP network) and local monitoring (through RS232 serial port). Users can manage all devices through the network management system, or remotely query, configure and upgrade a single device. Excellent hardware performance DS-9300 has low intermodulation noise, strong out-of-band rejection, low interference and great interference resistance. Software-Defined Radio (SDR) Technology DS-9300 achieves uplink squelch, delay compensation, carrier rejection, digital multi-carrier and etc with the SDR Technology. It supports multiple network topologies such as star, chain, ring and hybrid topologies. Effective mechanical design DS-9300 is compact and portable with effective heat dissipation and resistance to water, dust and salt spray. Various installation methods are available for DS-9300 including wall-mounting, pole-mounting and etc. 1.3 System Architecture DS-9300 consists of the donor unit and the remote unit. They transparently convey and amplify the 3 Introduction User Manual wireless signal between the BS and the radios. Donor unit includes the cable-access donor unit and the wireless-access donor unit. The cable-access donor unit is mounted into a 19-inch rack at the BS location while the wireless-access donor unit can be installed remotely from the BS. The remote unit is installed away from the donor unit over a fiber link. The following figure shows the networking of DS-9300 and the BS. Various topologies are available for networking between the donor and the remote units, including star, chain, ring and hybrid topologies. 1.3.1 Star Topology Low Configuration For low configuration of star topology, each SFP port of the donor unit can connect to up to four remote units, while one donor unit can connect to at most four remote units (N4). 4 User Manual 0 1 Donor Unit 2 3 0 0 0 0 Remote Unit Remote Unit Remote Unit Remote Unit 1 1 1 1 High Configuration Introduction 0 0 Remote Unit 1 0 Remote Unit 1 1 Donor Unit 2 3 For high configuration of star topology, each SFP port of the donor unit can connect to up to eight remote units, while one donor unit can connect to at most 16 remote units (N16). 1.3.2 Chain Topology Low Configuration For low configuration of chain topology, only one of the SFP ports on the donor unit is used and it can connect to at most four remote units (N4). Donor Unit 0 Remote Unit 1 1 0 Remote Unit 2 1 0 Remote Unit N 1 High Configuration For high configuration of chain topology, the SFP port on the donor unit can connect to at most eight remote units (N8). 1.3.3 Ring Topology Low Configuration For low configuration of ring topology, the donor unit can form at most two rings, with each ring can connect to up to two remote units; or the donor unit forms one ring and connects to four remote units. 5 Introduction High Configuration User Manual For high configuration of ring topology, at most two rings can be formed on the donor unit, with each ring can connect to up to eight remote units (N8). 1.3.4 Hybrid Topology Low Configuration For low configuration of hybrid topology, each SFP port of the donor unit can connect up to four remote units, while one donor unit can connect to at most four remote units. High Configuration For high configuration of hybrid topology, each SFP port of the donor unit can connect up to eight remote units, while one donor unit can connect to at most 16 remote units. 1.4 Specifications No. Item Specifications Downlink Uplink 1 Frequency Range 460-470MHz(DL) 450-460MHz(UL) 6 User Manual No. Item 2 3 4 Channel Bandwidth Channel Capacity Max. Output Power 5 Max. Gain Introduction Specifications Downlink Uplink 5 MHz (operating bandwidth) 25 kHz 18 5W 1W Cable-access: 50 dB3 Cable-access: 45 dB dB3 dB Wireless-access: 95 Wireless-access: 90 dB3 dB dB 3 dB 6 7 8 Gain Adjustment Range/Step 30 dB/1 dB Gain Adjustment Error 1 dB@ gain of 020 dB 1.5 dB@ gain of 2130 dB Noise Figure Wireless-access: 5 dB 5 dB 9 Max. Input Level Wireless-access: 10 10 dBm Cable-access: 10 dBm 10 Automatic Level Control (ALC) dBm Output power variation < 2 dB or be off when adding 10 dB at max output power. Control range20 dB. In-Band Ripple Input/Output VSWR Delay 3 dB 1.5 35 s Frequency Offset 510-8 ppm Spurious Emission In-band 15 dBm/30 kHz Out-of-band (2.5 MHz away from the 36 dBm@9 kHz to 1 GHz 30 dBm@1 GHz to 12.75 GHz 7 11 12 13 14 15 Introduction No. 16 Intermodulation Attenuation Item band edge In-band User Manual Specifications Downlink Uplink 40 dBc@RBW3 kHz 8 CH 75 kHz Carrier Spacing 45 dBc@RBW3 kHz 2 CH 75 kHz Carrier Spacing Out-of-band (2.5 MHz away from the band edge) 36 dBm/100 kHz@9 kHz to 1 GHz 30 dBm/1 MHz@1 GHz to 12.75 GHz 20 dBc@50 kHz 25 dBc@75 kHz 17 Out-of-band Rejection (6 dB) 30 dBc@125 kHz 18 Optical Bypass (optional) 19 Optical Loop 63 dBc@250 kHz 67 dBc@500 kHz When the remote unit is powered down or the optical path is faulty, the optical path is automatically bypassed, and other cascaded remote units are not affected. When the remote unit is powered down or the optical path is interrupted, other cascaded devices can work normally through the loop. 20 21 22 23 Network Topology Star, Chain, Ring, Hybrid and etc. Optical Transmission Distance 20 km Transmission Rate Optical TX Power 1.25 GB/s, 2.5 GB/s, 3.02 GB/s, 6.04 GB/s (optional) 9.5 dBm to 3 dBm 24 Max. Optical RX Sensitivity 25 RF Connector 20 dBm N/F, 50 8 User Manual No. Item 26 Fiber Connector Introduction Specifications Downlink Uplink Donor Unit: LC/UPC Remote Unit: LC/UPC 27 Power Supply Donor Unit /Remote Unit: 90 V to 264 V AC 28 Power Consumption Donor Unit Cable-access: 30 W Wireless-access: 100 W Remote Unit 100 W 29 Ingress Protection Rating 30 31 Safety EMC Cable-access Donor Unit: IP20 Wireless-access Donor Unit: IP65 Remote Unit: IP65 IEC 60950 Compliance IEC 61000 class B Compliance 32 Dimensions Wireless-access Donor Unit: 142 mm x 300 mm x Cable-access Donor Unit: 44 mm x 442 mm x 320 mm 33 Monitoring 385 mm Remote Unit: 142 mm x 300 mm x 385 mm Supports local monitoring and remote monitoring. Local monitoring: RS232 Remote monitoring: SNMP Internal Communication: RS485 34 MTBF 100,000 h 35 Operating Temperature Wireless-access Donor Unit: 25C to +55C Cable-access Donor Unit: 10C to +45C 36 Storage Temperature 40C to +85C Remote Unit: 25C to +55C 9 Packing List 2. Packing List User Manual Please unpack carefully and check that all items listed below are received. If any item is missing or damaged, please contact us or your dealer. 2.1 Cable-access Donor Unit Qty. Item Item Main Unit 1 Cable Kit Packing material for 19-inch Rack 1 Optical Cable Kit Square Nut Kit Crown Screw 4 4 Power Cord Documentation Kit 2.2 Wireless-access Donor Unit Qty. 1 1 1 1 Item Qty. Item Main Unit Packing material Mechanical parts of Die Casting Machine installation Signal Cable (1-core) Documentation Kit 2.3 Remote Unit Item Main Unit Packing material Mechanical parts of Die Casting Machine installation Signal Cable (1-core) Documentation Kit Qty. 1 1 1 Qty. 1 1 Signal Cable (8-core) Power Cord Cable Kit 1 Optical Cable Kit 1
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Signal Cable (8-core) Power Cord 1 Optical Cable Kit 1 1 SFP Optical Module
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10 Item Qty. 1 1 1 1
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1 1 1 2
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User Manual Getting Started 3. Getting Started 3.1 Appearance DS-9300 adopts modular design. For the wireless-access donor unit and the remote unit, its LED indicators and connectors are provided on the front and rear panels of the rack. The following figure shows the appearance of the remote unit. For the donor unit, its LED indicators are provided on the right side and connectors are provided on its bottom and right side. The following figure shows the appearance of the donor unit. 11 Getting Started User Manual 3.2 Donor Unit Interfaces 3.2.1 Cable-access Donor Unit 1 2 3 4 5 6 7 8 9 1010 11 12 User Manual 3.2.2 Wireless-access Donor Unit 15 Getting Started 3 12 13 14 11 1 6 7 8 9 3.3 Remote Unit Interfaces 16 12 13 14 11 1 6 7 8 9 13 Getting Started 3.4 Interface Description User Manual No. Label Meaning Connector Description 1 2
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LED indicators
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See "3.6". POWER Power switch Single-pole-doubl e-throw switch
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SMA-F Reserved. 3 MANT 4 BS/TX Modem antenna connector ANT port of the duplexer, or TX port of the BS N/F 5 RX RX port of the BS N/F Connected to the ANT port of the duplexer, or connected to the TX port of the BS if the duplexer does not exist. Connected to the RX port of the BS if the duplexer does not exist. 6 LOC Local debug interface 3-pin connector Connected to computer through the serial cable for debugging and monitoring. 7 CPRI 03 Optical port SFP connector, dual-layer The donor unit connects to remote units through CPRI interface. 8 IP 9 Debug Remote monitoring port Optical module debug interface 10 AC 90-264 V Power inlet RJ45 port RJ45 port 3-pin AC connector 11 GND Ground terminal
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Connected to computer through the network cable for remote debugging and monitoring. Interface for board debugging, used by R&D engineers.
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12 AC Power inlet 3-pin round electric connector AC power inlet. 13 EXM External alarm port 8-pin round electric connector Connected to external devices that need alarm monitoring. 14 LCT Alarm port for 6-pin round Donor Unit: Monitors location change 14 User Manual Getting Started No. Label Meaning Connector Description location change and door entry electric connector
(generates an alarm upon illegal location change). Remote Unit: Monitors location change and the optical bypass switch. 15 BS 16 MS RF interface RF interface N/F N/F Connected to the donor antenna. Connected to the service antenna. 3.5 Interface Definition EXM Pin No. Signal Name Definition Remarks 1 2 3 4 5 6 7 8 INT1 INT2 INT3 GND External alarm 1 Closed: Alarm; Open: No alarm. External alarm 2 Closed: Alarm; Open: No alarm. External alarm 3 Closed: Alarm; Open: No alarm. Ground (signal) Common terminal. OUT1 Reserved Customized Alarm 1 Closed: Alarm; Open: No alarm. GND Reserved Drive current: 10 mA (nominal), and 30 mA (max) OUT2 Reserved Customized Alarm 2 Closed: Alarm; Open: No alarm. GND Reserved Drive current: 10 mA (nominal), and 30 mA (max) LCT Pin No. Signal Name Definition Alarm for location change Remarks Monitors location change of the devices. Ground
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LCT GND DOOR Door entry alarm Subjects to the chassis structure (available for cast chassis). 15 1 2 3 Getting Started User Manual Pin No. Signal Name Definition Remarks 4 GND Ground
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LOC Pin No. Signal Name Definition Remarks 1 2 5 TX RX GND Data transmission Output. Data receiving Input. Ground
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3.6 LED Indicators The LED indicators on the donor and the remote units indicate the running status. LED Indicator Color Status Description ALM/VSWR Red Off The device is running well. Glowing or flashing The device malfunctions. COM Green PWR Green Glowing Off Glowing Remote communication works well. Remote communication error. The device is properly powered. Flashing or off The device is not properly powered. RUN Green Flashing The device runs properly. Glowing or off The device malfunctions. CPRI 0 Green CPRI 1 Green Glowing Optical synchronization works well. Flashing or off Optical synchronization error. Glowing Optical synchronization works well. Flashing or off Optical synchronization error. CPRI 2 Green Glowing Optical synchronization works well. Flashing or off Optical synchronization error. CPRI 3 Green Glowing Optical synchronization works well. 16 User Manual LED Indicator Color Status Description Flashing or off Optical synchronization error. Getting Started 17 Installation User Manual 4. Installation 4.1 Safety Information Before performing any operation, read the following precautions and operation instructions carefully to ward off potential risks. Local Laws and Regulations When installing a device, comply with the local safety laws and regulations. Power Supply Danger Direct contact or indirect contact (through moist objects) with the high voltage or mains electricity may result in fatal danger. Non-standard and incorrect operations on the high-voltage power supply may result in fire and electric shock. Never wear conductive objects such as watches, bracelets and rings during operation. Do use special tools when operating at high or AC voltage. Do keep moisture out of the power system during operation in moist environment. The equipment should be well earthed to avoid damage as a result of lightning strikes. Do turn off the power before assembly or disassembly. Do verify the cable specifications prior to connection. Ensure that the equipment is well earthed before power-on. Turn off the power immediately when the cabinet is found to get wet. Make sure the power switch is toggled to the Off position before installing the equipment. Working Aloft Work performed more than 2 m (6.56 ft.) above the ground is regarded as work at heights. While working at heights, stay alert to the following conditions. Stop such work in any of the following conditions: adverse weather, wet steel tubes, and other risky situations. Set danger signs and prevent unauthorized person from entering the work area. Avoid stacking scaffolds and other materials, and staying or passing below the aerial work platform. 18 User Manual Installation Avoid dropping machinery and tools from the heights. Use strong ropes, hanging baskets or cable cars to deliver tools. Take sound safety actions such as wearing hamlets and safety belts properly. Do wear heat-retaining clothes for working in cold areas. Make sure the ladder is safe for use. Overload is strictly prohibited. The slant of the ladder is suggested to be 75. When using a ladder, place it on a stable ground, and take protective measures on the base part of the ladder for skid resistance. Handle and use all devices and tools with care to avoid falling. Do not play or sleep on the aerial work platform. Personnel Installation and maintenance personnel must be trained to perform operations correctly and safely. 4.2 Installation Flow Install DS-9300 device by following the installation flow below. 4.3 Preparation 19 Installation 4.3.1 Environment Space Requirements User Manual It is recommended that the space of at least 200 mm be left between the product top and the ceiling, and 500 mm between the product bottom and the ground. For product installed at its back, the space of at least 500 mm should be left at the right side, and 200 mm at the left side of product; for product installed at its left side, the space of at least 200 mm should be left in front of product, and 200 mm in the back of product. For product installed at its back, the space of at least 800 mm should be left in front of product; for product installed at its left side, the space of at least 800 mm should be left at its right side. Install the product upright at a proper position. Environmental Protection To ensure device reliability, install the devices in places with stable temperature. Protection against Sun If the devices are exposed to the sun, it is necessary to keep them well-ventilated and heat sinking. If the temperature is more than 40C, shielding device is required. Protection against Rain, Water and Snow The devices are rain proof, waterproof and snow proof. But temporary protective measures are needed for maintenance. Protection against Interferences 20 User Manual Installation The devices should be installed far away from electromagnetic interferences such as large electric devices. Outdoor Installation and Maintenance If the devices are installed outdoor, do not perform maintenance on extreme weathers such as storm, extreme temperature or high humidity. Grounding Requirements The ground wire must be connected before device installation, and be removed after the device is dismantled. Do not damage the grounding conductors. Do not operate the devices when the grounding conductor is not installed. The devices must be permanently grounded. Before any operation, please check the electrical connection of the devices, making sure they are grounded properly. 4.3.2 Instruments and Tools The following table lists the required tools:
Regular Tools Torx screwdriver, Philips driver, flat blade screwdriver, adjustable wrench, Allen wrench, cross-type torque screwdriver, combination wrench, rubber hammer, and torque wrench. Safety Tools Antistatic wrist strap, safety belt, helmet, safety rope, and slip-proof gloves. Cable Making Tools Wire stripper, wire crimper, and wire cutter. Measuring Tools Multi-meter, tape measure, and level. Auxiliary Tools Fixed pulley, step ladder, marker pen, percussion drill, electrical tape, anti-UV cable tie, label, screw kit, expansion screw, utility knife, heat gun, and duct tape. 4.3.3 Material Preparation Before installation, check that all materials are well received according to the packing list. 4.4 Installing the Units Place and fix the cable-access donor unit inside the cabinet. The wireless-access donor unit and the remote unit can be mounted on a pole or wall as per needs. Check latter chapters for more details. 21 Installation User Manual 4.4.1 Installation Parts The following figure shows the parts needed for installation, including the auxiliary fixture, back panel, latches and M6 screws. AuxiliaryFixture CaptiveScrew BackPanel M6Screw Bolt 4.4.2 Installing the Product Installation on Pole You can install the product at its back or at its left side. The pole diameter should be between 60 mm to 114 mm. Installing at Back 1. Mark the installation position of the auxiliary fixture on the pole by using a marking pen. 2. Place the auxiliary fixture onto the pole, insert four bolts into the auxiliary fixture and then tighten four nuts by using a torque wrench. 3. Secure the back panel onto the back of the product using four M6 screws. 22 User Manual Installation 4. Insert the back panel into the auxiliary fixture and tighten the captive fasteners on the back panel of the product. Installing at Left Side Installing the product at left side and installing the product at back are almost the same. The only difference is that the back panel is secured to the left side rather than back of the product. The following figure shows the product installed at its left side. 23 Installation User Manual Installation on Wall You can install the product on a wall at the back or left side of the product. Installing at Back 1. Place the auxiliary fixture on the wall at the installation position and then mark the anchor points by using a marking pen. 2. Drill holes at the anchor points and then install the expansion bolt assemblies. 3. Fit the auxiliary fixture on the expansion bolts, and then tighten the bolts. 24 User Manual 4. Secure the back panel onto the back of the product using four M6 screws. Installation 5. Insert the back panel into the auxiliary fixture and tighten the captive fasteners on the back panel of the product. 25 Installation User Manual Installing at Left Side Installing the product at left side and installing the product at back are almost the same. The only difference is that the back panel is secured to the left side rather than back of the product. The following figure shows the product installed at its left side. 26 User Manual 4.4.3 Cabling Cabling Requirements Installation Lay out cables according to requirements to reduce interference between them. Safety Requirements Lay out cables away from sharp objects or jagged walls, or protect cables using conduit. Lay out cables away from heat sources, or add heat-insulation materials between cables and heat sources. Requirements for Binding Cables Bind same cables together. Bind cables securely and neatly, without damaging the cable jackets. Ensure that cable ties face the same direction and are aligned in rows horizontally. After installing cables, attach labels or tags to the two ends of each cable. Cables of different types cannot be crossed. Requirements for Laying Out Power Cables The routing of power cables must meet engineering design drawing requirements. If the power cable length is insufficient, replace the power cable. The power cable must be complete and cannot have splices or welding points. Avoid knotting or twisting the cable. Requirements for Laying Out Grounding Cables The grounding cable cannot be led in aerially, but buried in the earth or arranged indoor. The grounding cables must be separated from signal cables to reduce interference between them. All metal components in the chassis must be securely connected to the grounding cable. Requirements for Laying Out Optical Fibers Do not bind optical fibers where they are bent. Do not press optical fibers forcibly or crush optical fibers with force. Leave sharp objects away from optical fibers to prevent damage to optical fibers. Coil up redundant optical fibers around specialized devices such as the splice tray. Optical jumpers must be bound with optical fiber tapes. If the fiber is required to be fixed on the cabinet or device, then use the cable tie to bind the fibers on the optical fiber tape. Attention that the optical fiber must be flexible in the cable tie, and must not be bent into 90 angle. Coil optical fibers gently and do not break them. 27 Installation Cover idle optical fiber connectors with protective caps. Cable List Cable-access Donor Unit Cable List User Manual Cable Grounding Cable One end (at DS-9300 device) Other end Connector Connected to Connected to Ring Terminal Ground Terminal Grounding Bar RF Antenna N-M RX/TX/BS Interfaces Base Station Power Cable 3-pin AC Connector AC 90-264 V External Power Supply Optical Fiber SFP/SFP+
CPRI 03 Fiber Optic Network Wireless-access Donor Unit Cable List Cable Grounding Cable One end (at DS-9300 device) Other end Connector Connected to Connected to Ring Terminal Ground Terminal Grounding Bar RF Antenna N-M BS Interface Antenna System Power Cable Round Electric Connector AC Interfaces External Power Supply Optical Fiber SFP/SFP+
CPRI 03 Interfaces Optical Fiber Network Monitoring Cable 8-pin/1-pin Aviation Connector Remote Unit Cable List EXM/LCT Interfaces External Monitoring Device Cable Grounding Cable One end (at DS-9300 device) Other end Connector Connected to Connected to Ring Terminal Ground Terminal Grounding Bar RF Antenna N-M MS Interface Antenna System 28 User Manual Cable Installation One end (at DS-9300 device) Other end Connector Connected to Connected to Power Cable Round Electric Connector AC Interfaces External Power Supply Optical Fiber SFP/SFP+
CPRI 01 Interfaces Optical Fiber Network EXM/LCT Interfaces External Monitoring Device Monitoring Cable 8-pin/1-pin Aviation Connector Cabling Guide Cable-access Donor Unit 29 Installation Wireless-access Donor Unit User Manual Remote Unit Installing the Grounding Cable 1. According to the route, make a grounding cable with proper length, and install ring terminals at both ends of the cable. 30 User Manual The metal wires must be completely sealed, as shown in the figure below. Installation 2. Connect one end of the cable to the ground connector at bottom of DS-9300 and the other end to the grounding bar. 3. Attach labels or tags to the installed cable. Installing the RF Antenna 1. Remove protective caps from the antenna connector. 2. Connect the male end of the RF cable to the BS interface of the donor unit or the MS interface of remote unit and tighten the connector using the torque wrench. 3. Connect the donor unit to the coupler, and connect the other end of the RF antenna from the remote unit to the service antenna. If the antenna is installed outdoor, it needs to be connected to a lightning arrestor. In this case, the other end of the RF antenna connects to the lightning arrestor. 4. Waterproof the cable connectors. a. Wrap a layer of PVC insulation tape around the cable connector from bottom to top. b. Wrap three-layer waterproof tape over the PVC insulation tape. Starting from 50 mm from the bottom of the antenna connector, wrap the three-layer waterproof tape in the following patterns:
31 Installation User Manual bottom to top, top to bottom, and bottom to top again. Cut off the tape after the three-layer is done. Tighten the tape at each layer to ensure waterproof. c. Wrap three-layer PVC insulation tape over the waterproof tape. Starting from 30 mm from the bottom of the waterproof tape, wrap the three-layer PVC insulation tape in the same method as introduced in step b. d. Bundle cable ties at 35 mm from both ends of the tape. 5. Check the dustproof cap of the antenna connector, and waterproof it in the same method as introduced in step 4. 6. Waterproof idle connectors on the bottom of DS-9300 device without removing the protective caps, according to step 4. 7. Lay out the cable according to design requirements and fix the cable with cable ties. 8. Attach labels or tags to the installed cable. Installing the Power Cable Note Power cable delivered with DS-9300 device is 3*18 AWG cable. 1. Connect one end of the power cable to the PWR connector of DS-9300 device and the other end to the external power supply. Lay out the cable according to design requirements and fix the cable with cable ties. 3. Attach labels or tags to the installed cable. Installing the Monitoring Cable 1. Remove protective cap from the EXM/LCT connector of DS-9300 device. Connect one end of the monitoring cable to the EXM/LCT connector of DS-9300 device and the other end to the external monitoring device. 3. Lay out the cable according to design requirements and fix the cable with cable ties. 4. Attach labels or tags to the installed cable. Installing the Optical Fiber The remote unit receives signals from the donor unit at CPRI 0 and outputs signals to the connected remote unit at CPRI 1, as shown in the following figure. 32 User Manual Installation Procedure of installing the optical fiber is described as follows:
1. Connect the optical module to the SFP connector of DS-9300 device, as shown in the following figure. Note DS-9300 device adopts a dual-fiber single mode optical module with a transfer rate of 1.25 Gbps, a wavelength of 1,310 nm and a communication distance of 20 km. 1 2 3 a. Rotate the bail clasp latch down. b. Insert the optical module into the SFP connector. c. Rotate the bail clasp latch back. 2. Connect the fiber pigtail to the optical module and the other end of the fiber to the external transmission device, as shown in the figure below. 33 Installation User Manual 3. Lay out the cable according to design requirements and fix the cable with cable ties. 4. Attach labels or tags to the installed cable. 4.5 Post-installation Check 4.5.1 Checking the Installation Check the cables according to the table below. No. 1 2 3 4 5 6 7 Item The device is installed by strictly following the design draft. The installing position meets space requirements with maintenance space reserved. The device is securely installed. Waterproof caps are installed on idle connectors and securely fastened. All power cables or grounding cables are not short-circuited or reversely connected and must be intact with no damage. The power cables and grounding cables are separated from other cables and bundled separately. Connectors of all cables are complete, intact, and tightly connected. The cables are not damaged or broken. Labels on cables, feeders and jumpers are clear and correct. 4.5.2 Checking the Device with Power On After the installation is complete, observe indicators on DS-9300 device to determine the system running status. 34 User Manual Installation If the RUN indicator flashes green and the ALM indicator is off, the status of DS-9300 device is normal. 35 Power On and Power Off User Manual 5. Power On and Power Off 5.1 Powering On Toggle the power switch on DS-9300 device to the ON position to power it on. Wait a few minutes and check the status of LED indicators. 5.2 Powering Off Toggle the power switch on DS-9300 device to the OFF position to power it off. 36 User Manual 6. Debugging Debugging Use the Product Support Software (PSS) to configure and upgrade the DS-9300 device. 6.1 Preparation Before debugging, prepare the PSS tool, and connect the device to the computer. You can debug the device either locally through the cable or IP connection, or remotely through IP connection. The default IP address of the device is 192.168.1.100; the IP address of the computer must be set to the same network segment, 192.168.1. X (X cannot be 100). The computer for running the PSS must meet requirements specified in the following table:
Item Description Operating system Windows7 or above CPU Memory Storage Display PII300 or above 128 MB or above 2 GB or above 14-inch or above, resolution 800x600 or above 6.2 Procedure The process of local debugging and remote debugging is the same. In this document, local debugging is taken as example. For remote debugging, please refer to Repeater Management System Operation Guide. 1. Double-click "DS9300_PSS.exe" on the computer. The following main interface appears. 37 Debugging User Manual 2. Click Project, select DS_9300_CUSTOMER and click Lock. A message indicating locking database succeeded will appear in the message pane. 3. Select Ethernet tab, set the Destination and Port and click Connect. Note For debugging through the serial cable, select the Serial tab, set the Serial and Baudrate
(115200) and click Connect. 4. Click Scan and the following window appears. 5. Select devices you want to display on the PSS and click OK. 38 User Manual Debugging 6.2.1 Querying Parameters To manually query parameters of the selected device, click Query Parameter. If you click Auto Query, PSS will query all the parameters of the selected device every two seconds. In the Scan list, click on the device and check Select All. Click Query Parameter, the parameter values will be displayed in Status. Note To query a specific parameter, check the parameter name and click Query Parameter. To query all parameters on the line, click the blank tab above the checkbox as shown in the figure below. 6.2.2 Setting Parameters 1. In the parameter list, click the blank space under Setting tab from the same row the parameter locates
(the parameter is thus checked by default), enter or select a value. For the detail description of each parameter, see chapter Appendix: Parameters. a. (Optional for channel-selective devices) Select Parameter Settings tab, and turn on the channel switch of the current BS, then set the corresponding uplink and downlink working channel frequencies. Other spare channel switches need to be turned off. 39 Debugging User Manual Note For remote units, set the Downlink Output Under-power Threshold 10 dBm less than the actual output power in most cases. b. Select Real-time Sampling tab, and view the Downlink Input Power Level. The value of this parameter should be around -13 dBm for a cable-access donor unit, and -58 dBm for a wireless-access donor unit. In case the differences are large, add attenuators to the power input port of the cable-access donor unit according to the difference value, or adjust the corresponding donor antenna of the wireless-access donor unit. c. Select the Device Information tab, and modify the configuration according to the following table. Parameter Value IP Address IP Mask IP Gateway Device No. This parameter is subject to actual requirements. The default value is 192.168.1.100. This parameter is subject to actual requirements. The default value is 255.255.255.0. This parameter is subject to actual requirements. The default value is 192.168.1.1. The first three numbers must be consistent with that of the device IP address, the last number must be 1. The donor unit is 0; the range for remote unit in low configuration is 1 to 4;
the range for remote unit in high configuration is 1 to 16. 40 User Manual Debugging d. Select the Alarm Status tab, and turn on all switches if a repeater management system (RMS) is configured. When an alarm is generated, it will be alerted in red font and needs handling. 2. Click Setting, the result will be displayed in the message pane. Note To restore the factory settings, click Factory Reset. 6.2.3 Upgrade PSS allows you to upgrade the main program of the monitor board and the main program and FPGA of the digital board. 1. In the Upgrade area, click Load. 2. Select the software and click Upgrade. The result will be displayed in the message pane. 41 Debugging User Manual Note If the upgrade fails or you want to roll back to the former version, perform the upgrade using the old upgrade file. 6.2.4 Exporting the Logs PSS allows you to export the operation logs. 1. In the Log area, click Path. 2. Specify the storage path and click Start. 42 User Manual System Maintenance 7. System Maintenance 7.1 Care and Cleaning To guarantee optimal performance as well as a long service life of the product, please follow the tips below. Caution Be sure to turn off the product before cleaning. Product Care Attach the connector cover with waterproof plug when the connector is not in use. Do not pierce, strike, throw or scrape the product. Keep the product away from substances that can corrode the circuitry. Keep the device dry. Keep this device far away from overheating, which may shorten lifespan of the electronic parts, or even distort or melt the plastic parts. Keep this device far away from extreme cold. Otherwise, the circuit board may be damaged by vapor generated when the device is used at normal temperature. Product Cleaning Clean up the dust and fine particles on the product surface and charging piece with a clean and dry lint-free cloth or a brush regularly. Use a non-woven cloth with neutral cleanser to clean the device after long-time use. Do not use chemical preparations such as stain removers, alcohol, sprays or oil preparations, so as to avoid potential damage on the surface. Make sure the product is completely dry before use. 7.2 Routine Maintenance To ensure reliable communication, it is recommended to perform the following check tasks on a regular basis:
Check whether the return loss of the antenna feeder system is normal, whether the position and direction of the antenna are changed, and whether the RF cable connectors are properly sealed. Check whether the indoor cables are moved, whether the fixed devices are loosened, and whether the power connection is in good condition. Check whether the lightening arrestor and the grounding are in good condition. Check whether the power voltage of the device is normal. 43 System Maintenance User Manual Regularly check and record the working status and main parameters such as receiving signal level, output noise level, and downlink output power. Check whether the coverage meets the requirements. Check whether the monitoring system works properly. Check whether the signs and labels on the devices are complete. If the device malfunctions, return it for repair. 7.3 Alarm Handling Alarm Information Solution LNA and PA Alarm Power Fault and Power Down Alarm PA Over-temperature Alarm Door Alarm Location Alarm Downlink VSWR Alarm Uplink/Downlink Input/Output Over-power/Under-power Alarm Check whether the power supply and signal cable connection of the LNA and PA modules are in good condition. If the alarm still exists, replace the module. If the power down alarm is generated, check whether the AC power connection is in good condition, and whether the power supply is normal. Change the temperature threshold to clear the alarm. It's recommended to set the maximum temperature threshold to 90C. If the alarm still exists, cool the device down. Check whether the cabinet door is properly closed. If the alarm still exists after the door is closed, check whether the door and the alarm cable are properly connected. Check whether the device is moved illegally. If not, check whether the alarm cable is properly grounded. Check whether the SWR threshold of the downlink PA is set correct. It is recommended to set the threshold as 3.0. If the alarm does not disappear, check whether the antenna system is connected well, or flooded with water. It is recommended to use a VSWR tester to test the actual SWR threshold. Change the input/output over-power/under-power thresholds to clear the alarm. It is recommended to set the thresholds as follows:
Uplink Output Over-power Threshold (Donor Unit): 0 dBm (nominal downlink output power) Downlink Input Over-power Threshold (Donor Unit): 5 dBm Downlink Output Under-power Threshold (Remote Unit): +25 dBm (nominal 44 User Manual System Maintenance Alarm Information Solution downlink output power) 7.4 Troubleshooting Phenomena Possible Cause Solution The device fails to be powered on. The power cable is not connected, or the contact with the socket is loose. Connect the power cable properly and ensure good contact. The RUN indicator glows green solidly. The unit is powered, but a module is faulty. Troubleshoot or replace the faulty module. The RUN indicator is off. The unit is not powered, or a module is faulty. Check whether the power cable is properly connected, or troubleshoot the faulty module. Or replace the faulty module, if necessary. The ALM indicator glows red solidly. The ALM indicator flashes red. A module is faulty. Replace the faulty module. A connector is faulty. Check the connector. The VSWR indicator flashes red rapidly. One or more ports generate VSWR alarm during starting of the unit. Check whether the connection of the antenna system is proper. The VSWR indicator flashes red slowly. One or more channels are abnormal after the cell is set up. Check whether the connection of the antenna system is proper. The SFP indicator is off. The optical fiber link is faulty. If the above solutions cannot fix your problem, please contact us. Check whether the fiber and the optical module are properly connected. 45 Appendix: Parameters User Manual 8. Appendix: Parameters Take the donor unit as example. Device Information Parameter Configuration Remarks Electronic Serial Number
(ESN) Enter up to 10 characters, including digits and letters. Serial number of the device. Monitor Version Keep the default value unchanged. Version of the monitor board. FPGA Version Keep the default value unchanged. Application Version Keep the default value unchanged. Version of FPGA in the digital modules. Version of applications in the digital modules. IP Address Subnet Mask Default Gateway Site ID This parameter is subject to actual requirements. The default value is 192.168.1.100. This parameter is subject to actual requirements. The default value is 255.255.255.0. This parameter is subject to actual requirements. The default value is 192.168.1.1. The first three numbers must be consistent with that of the device IP address, the last number must be 1. The range is 0 to 4294967295. The site ID must end with the ID of its home BS. For example, if a donor unit has a site ID of 20001, then "2" represents the donor unit ID and "0001" represents the home BS ID; if the remote unit has a site ID of 160020001, then 16 represents the remote unit ID, 002 represents the home donor unit ID, and 0001 represents the 46
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The only ID of the device, consistent with its configuration in the repeater management system (RMS). User Manual Device No. Appendix: Parameters home BS ID. The donor unit is 0; the range for remote unit in low configuration is 1 to 4; the range for remote unit in high configuration is 1 to 16. Device number of corresponding donor or remote units. Manufacturer ID 1: Hytera The range is 0 to 255.
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2: Reserved The range is 1 to 13. 1: DCCD 2: DCR 3: DICR 4: LA 5: DWCD 6: DCBD 7: DBR 8: DWBD 9: DCCD L 10: DWCD L 11: DCBD L 12: DWBD L 13: Reserved Enter up to 20 characters, including digits and letters. Material number of the device. Enter up to 20 characters, including digits and letters. Material description of the device. This parameter is subject to actual requirements.
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Negative number represents South 47 Device Type Device Number Device Description Device Longitude User Manual Appendix: Parameters Device Latitude Latitude or West Longitude. This parameter is subject to actual requirements. Negative number represents South Latitude or West Longitude. Communication Method for Reporting Alarms The range is 0 to 2. 1: SNMP 2: Reserved
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Monitor Center IP Address This parameter is subject to actual requirements. IP address of the RMS Monitor Center. Monitor Center Port No. The range is 0 to 65535. This parameter is subject to actual requirements. Port number of the RMS Monitor Center. Remarks Site Description Real-time Sampling This parameter is subject to actual requirements. Parameter Configuration Manufacturer ID The range is 0 to 255. Location Area ID The range is 0 to 65535. Source BS ID The range is 0 to 4294967295. BCCH Absolute Carrier No. The range is 0 to 65535. BCCH Receiving Level The range is 127 to 127. Signal Format The range is 1 to 4. 1: PDT 2: DMR 3: TETRA 4: Others
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Max. Working Channels Keep the default value unchanged. Only available on channel-selective devices. 48 User Manual Actual Number of Carriers The range is 0 to 32. Downlink Input Power Level
(dBm) Uplink Output Power Level
(dBm) The range is 110 to 10. The range is 110 to 50. Remote Unit Online Switch Remote Unit Connection Indicator Donor Unit Connection Indicator Setting Parameters 0: Offline 1: Online 0: Not connected 1: Connected 0: Not connected 1: Connected Appendix: Parameters Actual number of channels the device has opened.
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Whether the remote unit is online. Whether a remote unit is connected. Whether a donor unit is connected. Parameter Configuration Remarks Downlink Input Over-power Threshold (dBm) Uplink Output Over-power Threshold (dBm) The range is 110 to 10. The range is 110 to 50. System Uplink Gain (dB) The range is 0 to 100. System Downlink Gain (dB) The range is 0 to 100. Uplink Channel Reference Base Frequency (MHz) This parameter is subject to actual requirements. Downlink Channel Reference Base Frequency
(MHz) Increment (kHz) This parameter is subject to actual requirements. This parameter is subject to actual requirements. 49
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User Manual Appendix: Parameters Inspection Report Troubleshooting Report Configuration Change Report Downlink PA Over-current threshold Uplink/Downlink Squelch Threshold (dBm) Uplink/Downlink Squelch Switch Remote Unit Delay Auto-compensation Switch Uplink Digital Attenuation
(dB) Downlink Digital Attenuation (dB) 1: Report 0: Do not report 1: Report 0: Do not report 1: Report 0: Do not report The range is 0 to 65535. The range is 110 to 50. 0: Enable 1: Disable 0: Enable 1: Disable The range is 0 to 20. The range is 0 to 20. Monitor Board Software Version Switch Digital Board Software Version Switch 0: Do not switch 1: Switch 0: Do not switch 1: Switch FPGA Software Version Switch 0: Do not switch 1: Switch Uplink Operating Channel
(MHz) This parameter is subject to actual requirements. Downlink Operating Channel (MHz) This parameter is subject to actual requirements. 50
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User Manual Channel Switch Alarm Status Appendix: Parameters 0: Disable 1: Enable
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Parameter Configuration Master-Slave Monitoring Link Fault Alarm Enable Power Supply Disconnection Alarm Enable Power Supply Fault Alarm Enable Downlink Input Over-power Alarm Enable Uplink Output Over-power Alarm Enable Uplink Local Oscillator Unlock Alarm Enable Downlink Local Oscillator Unlock Alarm Enable Remote Digital Module Fault Alarm Enable Downlink LNA Fault Alarm Enable Optical Receiving Alarm Enable Optical Transmission Alarm Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable 0: Disable 1: Enable Downlink PA Over-current Alarm Enable 0: Disable 51 User Manual Appendix: Parameters Master-Slave Monitoring Link Fault Alarm Power Supply Disconnection Alarm Power Supply Fault Alarm Downlink Input Over-power Alarm Uplink Input Over-power Alarm Downlink PA Over-current Alarm Uplink Local Oscillator Unlock Alarm Downlink Local Oscillator Unlock Alarm Remote Digital Module Fault Alarm Downlink LNA Fault Alarm Optical Receiving Alarm Optical Transmission Alarm 1: Enable 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 0: Normal 1: Fault 52
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-06-12 | 467.7375 ~ 470 | B9A - Part 90 Class A Industrial Booster (non-SMR) | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2019-06-12
|
||||
1 | Applicant's complete, legal business name |
Hytera Communications Corporation Limited
|
||||
1 | FCC Registration Number (FRN) |
0019701887
|
||||
1 | Physical Address |
Hytera Tower, Hi-Tech Industrial Park North
|
||||
1 |
Shenzhen, N/A 518057
|
|||||
1 |
China
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
b******@baclcorp.com
|
||||
1 | TCB Scope |
B2: General Mobile Radio And Broadcast Services equipment in the following 47 CFR Parts 22 (non-cellular) 73, 74, 90, 95, 97, & 101 (all below 3 GHz)
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
YAM
|
||||
1 | Equipment Product Code |
DS-9300-R
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
T******** C******
|
||||
1 | Title |
Certification Engineer
|
||||
1 | Telephone Number |
+86-7********
|
||||
1 | Fax Number |
+86-7********
|
||||
1 |
t******@hytera.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | B9A - Part 90 Class A Industrial Booster (non-SMR) | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Digital Repeater | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | Yes | ||||
1 | Grant Comments | Power listed is conducted at the antenna terminal. The antenna(s) used for this transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. The RF Exposure compliance for the device was based on maximum antenna gain 2.0 dBi and minimum separation distance of 65 cm. Users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Bay Area Compliance Laboratories Corp.(Dongguan)
|
||||
1 | Name |
D******** Z****
|
||||
1 | Telephone Number |
0086 ********
|
||||
1 |
q******@baclcorp.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 9 | 460 | 462.5375 | 3.899 | Amp | F3E | ||||||||||||||||||||||||||||||||||
1 | 2 | 9 | 460 | 462.5375 | 3.899 | Amp | GXW | ||||||||||||||||||||||||||||||||||
1 | 3 | 9 | 460 | 462.5375 | 3.899 | Amp | F1D | ||||||||||||||||||||||||||||||||||
1 | 4 | 9 | 460 | 462.5375 | 3.899 | Amp | F1E | ||||||||||||||||||||||||||||||||||
1 | 5 | 9 | 462.7375 | 465 | 3.899 | Amp | F3E | ||||||||||||||||||||||||||||||||||
1 | 6 | 9 | 462.7375 | 465 | 3.899 | Amp | GXW | ||||||||||||||||||||||||||||||||||
1 | 7 | 9 | 462.7375 | 465 | 3.899 | Amp | F1D | ||||||||||||||||||||||||||||||||||
1 | 8 | 9 | 462.7375 | 465 | 3.899 | Amp | F1E | ||||||||||||||||||||||||||||||||||
1 | 9 | 9 | 465 | 467.5375 | 3.99 | Amp | F3E | ||||||||||||||||||||||||||||||||||
1 | 1 | 9 | 465 | 467.5375 | 3.99 | Amp | GXW | ||||||||||||||||||||||||||||||||||
1 | 11 | 9 | 465 | 467.5375 | 3.99 | Amp | F1D | ||||||||||||||||||||||||||||||||||
1 | 12 | 9 | 465 | 467.5375 | 3.99 | Amp | F1E | ||||||||||||||||||||||||||||||||||
1 | 13 | 9 | 467.7375 | 470 | 3.99 | Amp | F3E | ||||||||||||||||||||||||||||||||||
1 | 14 | 9 | 467.7375 | 470 | 3.99 | Amp | GXW | ||||||||||||||||||||||||||||||||||
1 | 15 | 9 | 467.7375 | 470 | 3.99 | Amp | F1D | ||||||||||||||||||||||||||||||||||
1 | 16 | 9 | 467.7375 | 470 | 3.99 | Amp | F1E |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC