Table of Contents
Troubleshooting
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Summary of Contents for COBHAM NanoVue
- Page 1 Document Number DS000042 NanoVue Receiver Version 1 Part A - User Guide Cobham Surveillance Commercial in Confidence The Cobham Centre - Solent Fusion 2 1100 Parkway Solent Business Park Whiteley Hampshire PO15 7AB +44 (0)1489 566 750...
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Page 2: Who Should Read This Book
About this Document This document contains all relevant details required for the Operation and Administration of the Cobham NanoVue Body Worn Receiver. This document contains a description of the general operations and administration aspects of the system. Since the available functions are licensed and depend on the specific implementation, not all the functions and or applications contained in this document may be relevant or applicable to the system you will be working with. -
Page 3: Typographic Conventions
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Typographic Conventions This document uses these typographic conventions to identify text that has a special meaning: Typographic Conventions Examples TEXT in small capitals represents a ESC, F1, SHIFT specific key press on the console keyboard or hardware panel. -
Page 4: Trademarks
Part-D Reference Guide Cobham Technical Communications Team Document History This document was written and produced by Cobham Surveillance Technical Communications Team. This is a change controlled document. Each main page of this document displays a file name at the bottom left corner of the page. This is followed by a revision number (‘R01’ is the original). -
Page 5: Table Of Contents
01-50-01 NanoVue Receiver (SOL4NNV-217250)............7 01-60 System Diagrams ....................9 01-60-01 Main System Diagram ................9 01-70 Hardware System .................... 10 01-70-01 NanoVue Body Worn Receiver Type ............10 01-80 Software System ..................... 10 01-80-01 Internal Software ..................10 01-80-02 Control Pages ..................11 02-Equipment Schedule .............. - Page 6 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 02-10-01 NanoVue Equipment Schedule ..............12 02-10-02 NanoVue Equipment Options ..............13 03-Placards and Markings ..............14 03-00 General ......................14 03-10 Exterior Placards and Marking System ............... 14 03-10-01 Product Code, CE and Serial Number Placard ..........
- Page 7 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 05-51-08 IP ......................26 05-51-09 FPGA Temp .................... 27 05-52 Globals Page System ..................27 05-52-01 Selecting the Globals Page ............... 27 05-52-02 IP Address ....................27 05-52-03 Network Mask ..................28 05-52-04 IP Gateway .....................
- Page 8 10 Start and Stop ................48 10-00 General ......................48 10-10 Starting the Unit ....................48 10-10-01 Starting the NanoVue Receiver ..............48 10-10-02 Troubleshooting the Start ................ 48 10-20 Shutting Down the Unit ..................48 10-20-01 Shutting Down the SOLO4 Receiver ............48 11-Payload ..................
- Page 9 13-Encryption ................... 72 13-00 General ......................72 13-10 Encryption System ................... 72 13-10-01 Switching on the NanoVue Receiver Encryption ......... 72 13-10-02 Changing the Encryption Key ..............73 13-10-03 Number of Encryption Key Characters Required ......... 73 15-Accessories .................. 75 15-10 NanoVue Clip-on Rechargeable Battery System ..........
- Page 10 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 15-10-01 Clip-on Rechargeable battery – Rear View ..........75 15-10-02 Attaching the Custom Battery ..............75 16-Troubleshooting ................76 16-00 General ......................76 16-10 Power Trouble ....................76 16-20 Payload System Trouble ...................
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Page 11: 01-Systems Description
01-10 Overview Cobham’s products and services have been at the heart of sophisticated military and civil systems for more than seventy years, keeping people safe, improving communications and enhancing the capability of air, land and maritime platforms. -
Page 12: Product Description - What Is It
01-20 The Unique Technology - How Does It Work? The NanoVue incorporates a powerful receiver with its own display but can also be connected to an external monitor if required. The SOLO product range has been designed to... -
Page 13: Demodulation Block
Cobham offers ABS encryption as standard and AES-128 or AES-256 as licensed controlled option. 01-20-04 Decoder Block The next step is to decode the digital data stream. Cobham has chosen to use the MPEG-2 and MPEG-4 standards which are mature and well-defined. 01-20-05 Digital to Analogue Convertor Block An analog-to-digital converter (abbreviated ADC, A/D or A to D) is a device which converts continuous signals to discrete digital numbers. - Page 14 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Typically, an ADC is an electronic device that converts an input analog voltage (or current) to a digital number proportional to the magnitude of the voltage or current.
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Page 15: Features And Benefits
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 01-30 Features and Benefits It can be very useful to understand how the features of the unit yield tangible benefits to you. This table summarises these features and, more importantly, the benefits. -
Page 16: Applications
– saves you time and cost. 01-40 Applications The NanoVue Receiver has been designed to operate in many roles in multiple environments. Here are some examples: 01-40-01 Unidirectional Link The NanoVue Receiver is typically used as a stand alone unidirectional video link when combined with a SOLO4 Transmitter unit. -
Page 17: Body-Worn Applications
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 01-40-02 Body-Worn Applications Supplied in a rugged, lightweight weatherproof aluminium chassis, the NanoVue can be used in body-worn applications, or prolonged outdoor deployments. 01-40-03 Application List Tactical mobile surveillance ¢... - Page 18 NanoVue Receiver Version 1 Operating your NanoVue NanoVue is ideal for tactical mobile situations providing decision makers with real time video feedback. Security of transmission is ensured by the use of ABS encryption as standard or, for greater security, optional AES128/256 bit encryption algorithms, subject to export controls.
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Page 19: System Diagrams
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 01-60 System Diagrams It can be useful to get an overview of the system diagram. 01-60-01 Main System Diagram Figure 01-60-01 – Main System Diagram NANOVUE-user-guide-R06- DS000042 Commercial in Confidence... -
Page 20: Hardware System
Its Product Code is SOL4NNV-217250. Figure 01-70-01 – NanoVue Receiver 01-80 Software System Each NanoVue Receiver has two software elements: Software that runs within the device on the FPGA chip. ¢ A Control Application that you run on a Windows PC outside the device using a web ¢... -
Page 21: Control
Operating your NanoVue When a new software release is available for the NanoVue, Cobham will supply customers with a software upgrade. Cobham will generate a new upgrade file (with the file extension .upg) which we’ll send to you. 01-80-02 Control Pages The software tools provide users a convenient access to the most common features and functions of the Device. -
Page 22: 02-Equipment Schedule
To use the kit effectively it is important to be able to identify each of the elements of the system and understand how they fit together. 02-10 Equipment Schedule System This section describes the NanoVue Equipment Schedule. Naturally you’ll also need a transmitter to form a complete SOLO4 link. 02-10-01 NanoVue Equipment Schedule... -
Page 23: Nanovue Equipment Options
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 02-10-02 NanoVue Equipment Options Item Part No Description NANOVUE-user-guide-R06- DS000042 Commercial in Confidence 2011-07-07.doc... -
Page 24: 03-Placards And Markings
The simplest way is to check the placards and markings on the units and this section shows you how to decode them. 03-10 Exterior Placards and Marking System The outside of each NanoVue receiver unit is marked with several placards: Product Code, CE and Serial Number Placard ¢... -
Page 25: Warranty Void Placard
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 03-10-02 Warranty Void Placard Figure 3-10-02 - Warranty Void Placard 03-20 Interior Placards and Marking System There are no interior placards and markings that will concern the operator of this unit. -
Page 26: 04-Cautions And Warnings
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 04-Cautions and Warnings 04-00 General There are some general cautions and warnings which should be observed when using this equipment. 04-10 Enclosure System Do not remove any factory installed screws or fastenings. Damage to the units may result and void any warranties. -
Page 27: Thermal Control System
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 04-70 Thermal Control System Any powered device will always produce heat as a by product of its operation. If you operate this device in an enclosed space you must ensure it has adequate airflow to keep it cool. -
Page 28: 05-Panels, Displays, Controls, Indicators And Alarms
This section will help you identify all these features. Each NanoVue has front, top, left and rear panels which contain all the interface connections for the units and the controls and indicators. There is an operational control panel on the front of the unit in the form of a touch screen. -
Page 29: Top Panel
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Figure 05-10-01-002 - NanoVue Receiver Front Panel showing Touch Screen Controls 05-10-03 Top Panel Figure 05-10-03 - NanoVue Receiver Top Panel NANOVUE-user-guide-R06- DS000042 Commercial in Confidence 2011-07-07.doc... -
Page 30: Left Panel
NanoVue Receiver Version 1 Operating your NanoVue 05-10-05 Left Panel Figure 05-10-05 - NanoVue Receiver Left Panel 05-10-06 Right Panel Figure 05-10-06 - NanoVue Receiver Right Panel 05-20 Indicator System There are no indicators on the unit. All visual cues are delivered through the touch screen. -
Page 31: Control Panel System
When you are viewing the video display, the Status Status touch screen button switches to the Status display on the touch screen. Figure 05-30-01 - NanoVue in Video Mode 05-30-02 X Touch Screen Button Press the X touch screen button to switch back to video display. -
Page 32: Alarm System
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Figure 05-30-02 - NanoVue in Status Screen 05-40 Alarm System There are no alarms on the unit. NANOVUE-user-guide-R06- DS000042 Commercial in Confidence 2011-07-07.doc... -
Page 33: Display System
Version 1 Operating your NanoVue 05-50 Display System The NanoVue Receiver is equipped with a diagnostic Touch Screen display. This system consists of three pages of information to help you with test and setup. 05-50-01 Touch Screen Display The touch screen display function is selected using the Status Button when viewing the video display. -
Page 34: Status
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 05-51 Status Page System The Status Page enables you to see diagnostic data about the signal you are receiving. 05-51-01 Selecting the Status Page The status page is selected using the Status Button when viewing the video display. -
Page 35: Rf Data
625 kHz surveillance use). BW Hunting Off or On When enabled, and when unit is operating in Narrowband mode, NanoVue will change its bandwidth automatically to match that of the transmitter. 05-51-07 Radio and Error Correction Information Unit Parameter Options... - Page 36 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue detected and is simply displayed here. You can’t change it other than at the transmitter. 1/3 or 2/3 This field indicates the forward error correction (FEC) rate which is being applied.
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Page 37: Fpga Temp
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 05-51-09 FPGA Temp Unit Parameter Options Notes FPGA temp 60.0 or any number The internal temperature of the FPGA in degrees Celsius. This should be in the region of 50-80 degrees Celsius. -
Page 38: Network Mask
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 05-52-03 Network Mask Subnet masks accompany an IP address and the two values work together. Applying the subnet mask to an IP address splits the address into two parts, an "extended network address"... -
Page 39: Apply Button
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue The DEL button deletes one character at a time The CLR button deletes the entire address. After entering the new address, press OK to accept. ‘X’ will return to the previous screen without saving any changes. -
Page 40: Preset
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 05-53-02 Preset This field controls the preset currently being edited on the unit. The currently loaded preset is indicated by a blue background, while a non-live preset is indicated by a black background. - Page 41 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Select the preset to be loaded. Press OK to load this preset or X to exit without saving. After editing the required preset parameters, hit Save to save the changes without making the preset live, or hit Apply to save the changes and make them live.
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Page 42: 06-Interfaces
You’ll need to understand what these interfaces are and how to use them. 06-10 Power Interface System Electrical power is supplied to the NanoVue receiver using the Lemo OB 4-way jack (female). 06-10-01 Power Interface – Lemo OB 4-Way Jack Figure 06-10-01-001 – NanoVue Receiver Power Interface The unit accepts 12VDC through the power interface on the left side of the left panel. -
Page 43: Video Interface System
Figure 06-10-01-002 – Lemo OB Single Key Arrangement 06-20 Video Interface System The NanoVue is provided with a composite video and line level audio output connector for situations where the user requires an additional external display monitor. Typically the video display device will be a high quality monitor and the audio output device will be monitoring speakers. -
Page 44: Audio Interface System
Your CA0122 Audio Video cable assembly fits in here. 06-30 Audio Interface System The NanoVue is provided with a composite video and line level audio output connector for situations where the user requires an additional external display monitor. Typically the video display device will be a high quality monitor and the audio output device will be monitoring speakers. -
Page 45: Audio Interface - 3.5Mm Trs 3-Way Headphone Jack
Figure 06-30-01-002 – Lemo OB Twin Key Arrangement 06-30-02 Audio Interface – 3.5mm TRS 3-Way Headphone Jack Figure 06-30-02 – NanoVue Receiver Headphone Audio Interface The unit outputs Audio through the Headphone audio interface in the centre of the left panel. -
Page 46: Data Interface System
Data is output from the receiver using a single Hirose 3500 16-way jack. 06-40-01 Data Interface – Hirose 3500 16-Way Jack Figure 06-40-01-001 – NanoVue Receiver Data Interface The unit outputs data signals through the data/control interface in the centre of the left panel. -
Page 47: Ip Interface System
Ethernet is compatible with 10/100 Base-T Ethernet networks. 06-60-01 IP Interface Figure 06-60-01 – NanoVue Receiver IP Interface The unit passes IP signals through the IP interface on the left of the right panel. This is a Hirose 3500 16-way jack, female marked ETHERNET. -
Page 48: Antenna Interface System
06-70 Antenna Interface System There are two antenna interfaces located on the top panel of the NanoVue receiver. 06-70-01 Antenna Interfaces – SMA 2-Way Jacks You attach the antennas to the antenna interfaces on the top panel. These are SMA 2- way jacks, female. -
Page 49: 07-Planning
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 07-Planning 07-00 General Radio operations always benefit from careful planning. This can help you avoid loss of signal due to frequency clashes or other forms of interference. Issues like the provision of power to the units can be carefully planned prior to the operation of the set. -
Page 50: Battery Planning
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue manmade interference. The interference from known sources such as generators can be greatly reduced if an antenna is positioned so that an obstacle (e.g., a hill) is between it and the source. -
Page 51: 08-Antennas
The NanoVue has the downconverters built into the unit. This means you must choose the band you want to operate in when you order your NanoVue and you will be given the correct variant. -
Page 52: Upconverter System
Always try to connect the antenna directly to the NanoVue. If you must locate the antenna away from the NanoVue (say, in an aircraft or vehicle) then keep the cable run short. Always use the best possible RF cable to avoid losses. -
Page 53: 09-Electrical Power
You’ll need a NanoVue Receiver and an AC Adaptor. 1. Connect the Lemo OB 4-way plug (male) from the AC adaptor to the Lemo OB 4- way jack (female) on the NanoVue Receiver which is located on the left side of the front panel. -
Page 54: Dc Power Supply System
Also, be careful to get the polarity correct when connecting to a DC power source. 09-20-01 Connecting to DC Supply You’ll need a NanoVue Receiver and the CA0002 Power Cable Assembly. 1. Connect the Lemo OB 4-way plug (male) from CA0002 cable to the Lemo OB 4-way 12V jack (female) on the NanoVue Receiver. -
Page 55: Battery Pack System
Ah is the amp hours of the battery you’re planning to use I is the current drawn by the unit you want to power Let’s take a NanoVue Receiver as an example. If we look at the Power section of the Data Sheet, we see these numbers:... -
Page 56: Back Up Battery System
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Current drawn (I) = Power (W) / Voltage of Battery (V) Where: I is the current drawn by the unit in amps W is the power used by the unit in watts V is the voltage used by the unit in volts Let’s select a power consumption of 10 W (the worst case) and run the current calculation. -
Page 57: Sacrificial Component System
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 09-53 Sacrificial Component System A sacrificial component is a part of a machine or product that is intentionally engineered to fail under excess mechanical stress, electrical stress, or other unexpected and dangerous situations. -
Page 58: Start And Stop
NanoVue receivers don’t have power switches – you simply apply power to them and they will start up. When power is applied to the NanoVue the screen will remain blank for about seven seconds while the unit boots up. This will be followed by a blue screen which will then show video if the corresponding transmitter is switched on. -
Page 59: 11-Payload
11-Payload 11-00 General The NanoVue Receiver forms part of a radio link designed to carry a payload. That payload can be any combination of Video, Audio and Data. The NanoVue is designed to have everything you need to receive transmitted payloads in one compact unit. -
Page 60: Data Payload System
11-40 Internet Protocol (IP) Payload System The NanoVue has an Ethernet connection which is used to configure the unit from your PC using your browser software and the units control pages. This connection can also be use to stream video from the NanoVue. -
Page 61: Connecting An Ip System
Operating your NanoVue 11-40-01 Connecting an IP System You’ll need a fully configured NanoVue Receiver, a Lemo Ethernet Cable and a PC with a browser. 1. Connect the RJ45 8-way plug (male) on the Lemo Ethernet Cable to the RJ45 8-way jack of your Personal Computer. -
Page 62: Control Application
12-10 Control Application System You install a browser (Internet Explorer or Firefox for example) onto your Personal Computer (PC). Then, you connect the personal computer to your NanoVue using the Lemo Ethernet Cable Assembly. Now you can start the browser and connect to the Control Application and begin configuring your NanoVue Receiver. -
Page 63: Starting The Control Application
12-10-02 Starting the Control Application 1. Click Start ® Internet on the PC. 2. Your browser window will open. 3. Type the IP address of the NanoVue you want to configure like this example: http://192.168.2.1/ 4. Click the Refresh button. -
Page 64: Opening The Nanovue Control Window
Version 1 Operating your NanoVue 12-21-01 Opening the NanoVue Control Window The NanoVue Control Pages open when the web browser connects to the NanoVue. It starts at the Status tab on the overview sub-tab. Figure 12-21-01 - NanoVue Receiver Control Window... -
Page 65: Opening The Overview Sub-Tab
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 12-23-01 Opening the Overview Sub-tab Click on Status ® Overview tab to open the Status/Overview page: Figure 12-23-01 - Status / Overview Tab Unit Parameter Options Notes The frequency in megahertz... - Page 66 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Figure 12-23-02 - Status / Input Tab Unit Parameter Options Notes Decoder Lock Locked (steady green Tells you if the unit has Status background) or Not successfully locked to the Locked (steady red incoming bit stream.
- Page 67 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue displayed here. You can’t change it other than at the transmitter. 1/3 or 2/3 This field indicates the forward error correction (FEC) rate which is being applied. 1/3-less user data, more FEC data, more robust, more range.
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Page 68: Show Detail Check Box
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue There are readings for both antennas. Input A SNR Could be any number. The signal to noise ratio of the signal being received on antenna A. There are readings for both antennas. -
Page 69: Global Settings Tab System
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Any error here will corrupt the video, audio or data signals coming through the receiver. Service Name Matched Reports that the Service Match name set on the transmitter matches the service name set at the receiver. -
Page 70: General Settings Pane
(or do not feature a DHCP server), users may prefer to assign an IP address manually. IP Address Example: If the NanoVue is not automatically acquiring its 192.168.2.120 IP address via a DHCP server then a fixed IP address needs to be... -
Page 71: Osd Settings
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Enter a subnet mask in the Network mask text box. Gateway Example: A default gateway is used by a host when an IP 192.168.2.120 packet's destination address belongs to someplace outside the local subnet. -
Page 72: Apply
The default value is 10333. Multicast Service NanoVue or any eight The default is NanoVue. Name ASCII characters. This is an identifier for the service. 12-24-05 Apply Each time you change any parameter on the Control Application it is very important to click the Apply button and wait for a moment for the changes to be sent to the device. -
Page 73: Configuration Tab System
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 12-25 Configuration Tab System The Configuration tab contains the list of 16 presets. Each preset the user can specify demodulation parameters, decoding modes, and descrambling configuration. You can easily load a different preset by selecting one of the 16 configuration tabs and clicking Apply. -
Page 74: Tabs 1 To 16
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 12-25-02 Tabs 1 to 16 The darker blue tab shows the preset you are currently editing. The green box shows which preset is currently active in the receiver. -
Page 75: Bandwidth Mode
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Guard interval Narrowband: The guard interval which is 1/16 or 1/8 being applied to the narrowband mode in use. DVBT: The guard interval is a 1/32, 1/16, 1/8,... -
Page 76: Encryption
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 12-25-06 Encryption Unit Parameter Options Notes Decryption Mode Off, EBS, AES128, Select the mode which has been AES128+, AES256, used to scramble the signal at AES256+, BCrypt, the transmitter. -
Page 77: Apply
Many times people change a parameter and then wonder why the device has not changed behaviour. Always click the Apply button. 12-26 Log Tab System The NanoVue receiver has the facility for generating log files of receiver status information (available in software v1.3). 12-26-01 Opening the Log Tab Click on the Log tab to open the page: Figure 12-26-01 –... -
Page 78: Uploads Tab System
If a new licensable feature is purchased for a unit then a new license code has to be programmed into the NanoVue to enable the function. Cobham will generate a new license file (with the file extension .lic) which we’ll send to you. 1. Open the Uploads Tab 2. -
Page 79: Upgrade
When a new software release is available for the NanoVue, Cobham will supply customers with a software upgrade. Cobham will generate a new upgrade file (with the file extension .upg) which we’ll send to you. 1. Open the Uploads Tab 2. -
Page 80: Information Tab System
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Figure 12-27-03-001 – Uploading an Upgrade Figure 12-27-03-002 – Upgrade success and reboot message 12-28 Information Tab System The Information tab contains generic information including software versions and unit specific data. -
Page 81: Software Version
12-28-03 Serial Number During a support call we’ll often ask you for the Serial Number of your NanoVue. This is where you find it. -
Page 82: 13-Encryption
We’ll just use the word encryption for this receiver manual even though what is actually going on here is a decryption process. 13-10-01 Switching on the NanoVue Receiver Encryption Here’s how you set up Encryption on the device: 1. Click on the Configuration tab to open the page: 2. -
Page 83: Changing The Encryption Key
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 13-10-02 Changing the Encryption Key The encryption key is a 128bit value for AES128 and a 256bit value for AES256, and is entered as 32 or 64 ASCII hexadecimal characters (0..9, A..F). - Page 84 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Figure 13-10-03 – Enter Scrambling Key Dialog for AES256 key Type Key Type Number of Characters Needed AES128 AES256 64 (32 in each field) NANOVUE-user-guide-R06- DS000042 Commercial in Confidence...
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Page 85: 15-Accessories
Figure 15-10-01 – Clip-on Rechargeable Battery – Rear View 15-10-02 Attaching the Custom Battery For increased portability, the unit can be powered by the custom NanoVue clip-on rechargeable battery pack, which provides between 4 and 5 hours continuous battery life. -
Page 86: 16-Troubleshooting
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 16-Troubleshooting 16-00 General Many problems can be isolated with this general technique: Check connections and wiring harnesses recheck all connections to the unit for security. Check all harness runs for possible pinching. -
Page 87: Audio System Trouble
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue for each horizontal resolution below the sharpest resolution of 704 pixels. It is advisable to select a horizontal resolution that matches the resolution of the camera. Video Bitrate... -
Page 88: Data System Trouble
16-30 Control Application System Trouble Problem Possible Cause Solution Cannot browse Laptop and/or Disable DHCP on laptop and to NanoVue NanoVue has DHCP NanoVue and assign fixed control enabled. IP addresses. application when plugged into laptop. 16-40 IP System Trouble Problem... -
Page 89: Rf Link Trouble
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 16-60 RF Link Trouble Problem Possible Cause Solution No RF Link No transmitter Check a suitable transmitter RF source is active, on correct frequency. No antennas Ensure antennas are... -
Page 90: Indicating System Trouble
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue 16-80 Indicating System Trouble Problem Possible Cause Solution NANOVUE-user-guide-R06- DS000042 Commercial in Confidence 2011-07-07.doc... -
Page 91: Appendix A-Glossary
Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Appendix A-Glossary A-00 General The glossary contains some abbreviations and terms you’ll need to know. A-10 Glossary Means… Alternating Current. Current that is continually changing in magnitude and periodically in direction from a zero reference level. - Page 92 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Means… power values produced at the receiver input terminals is used. The more directional an antenna is, the higher is its gain. Attenuation Power loss resulting from conductor resistance and dielectric loss within the insulating material used to separate the conductors.
- Page 93 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Electromagnetic field The field of force that an electrical current produces around the conductor through which it flows. Electromagnetic A wave propagating as a periodic disturbance of the electric and...
- Page 94 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Means… Infra Red - Infrared (IR) radiation is electromagnetic radiation whose wavelength is longer than that of visible light. Impedance The total opposition offered by a circuit or component to the flow of alternating current.
- Page 95 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue Oscillation A periodic, repetitive motion or set of values (voltage, current, velocity). Means… Passive Infra Red sensor (PIR sensor) is an electronic device that measures infrared (IR) light radiating from objects in its field of view.
- Page 96 Part A - User Guide NanoVue Receiver Version 1 Operating your NanoVue The TNC (threaded Neill-Concelman) connector is a threaded version of the BNC connector. The connector has a 50 Ω impedance and operates best in the 0–11 GHz frequency spectrum.
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