Installation and User Guide FC-Series FC-Series O FC-Series ID 427-0089-00-12 Version 180 August 2020 This document does not contain any export-controlled information.
© 2020 FLIR Systems, Inc. All rights reserved worldwide. No parts of this manual, in whole or in part, may be copied, photocopied, translated, or transmitted to any electronic medium or machine readable form without the prior written permission of FLIR Systems, Inc. Names and marks appearing on the products herein are either registered trademarks or trademarks of FLIR Systems, Inc. and/or its subsidiaries.
Table of Contents Table of Contents Camera Installation 1.1 Warnings and Cautions ............................................................................................... 5 1.2 References .................................................................................................................. 5 1.3 Installation Overview ................................................................................................... 6 1.3.1 Camera Connection Options .......................................
Table of Contents Advanced Configuration 3.1 Setup Menu ............................................................................................................... 43 3.1.1 Temperature Page ............................................................................................ 44 3.1.2 Video Page ....................................................................................................... 45 3.1.3 IR Page—Thermal Image Setup ...............................................................
1 Camera Installation This manual describes the installation and initial configuration of the FC-Series thermal camera. The FC-Series ID and the FC-Series O are based on identical hardware. The FC-Series ID camera has software installed providing for on-board video analytics: setting of detection regions, trip lines, and classification of detected objects. Refer to Analytics Page—FC-Series ID only, pg. 50.
Camera Installation 1.3 Installation Overview The FC-Series camera is an infrared thermal imaging camera intended for outdoor security applications, and can be installed in a fixed location or on a pan/tilt mechanism. The camera is intended to be mounted on a medium-duty fixed pedestal mount or wall mount commonly used in the security industry. The camera mount must support up to 5.4 lbs (2.5 kg).
Camera Installation PoE+ Power Supplies With PoE+, camera power is delivered to the camera over the Ethernet cable via the camera’s standard RJ-45 Ethernet connector. The FC-Series camera is a Powered Device compliant with the IEEE 802.3at-2009 standard, known as PoE+ or PoE Plus. The FC-Series camera is also backward compatible with the older IEEE 802.3af-2003 standard. When connected to Power Sourcing Equipment compliant with the earlier, lower power IEEE 802.
Camera Installation • Pole Mount Adapter Kit (PN 4132982) - Adapter kit that allows the Concealed Cable Wall Mount to be mounted to a pole (75 mm [3 in] min to 180 mm [7 in]; larger pole diameter requires use of customer supplied band clamps) • FC-Series De-Ice Kit (PN 421-0056-00 for 60 mm lens, and PN 421-0057-00 for 75 mm lens) The 60 mm and 75 mm lenses are not thermally conductive.
Camera Installation supported by FLIR IP cameras. Because these systems tend to evolve and change over time, contact the local FLIR representative or FLIR Technical Support for information. α Camera mounted upright For installations with multiple FC-Series ID cameras with on-board video analytics, the fields of view of cameras should overlap in order to remove all dead zones in which a camera cannot see a target “head to toe”. The camera’s on-board analytics must be calibrated to detect targets.
Camera Installation If using two 1/4-20 fasteners in the center of base, the maximum depth of the fastener should not exceed 12.5 mm (0.5 in). If using four M5 x 0.8 fasteners, the maximum depth of the fastener should not exceed 10.0 mm (0.4 in). Figure 1-1: FC-Series Camera Bottom Mounting Holes Figure 1-2: Top Mounting Holes If using two 1/4-20 fasteners in the center of top, the maximum depth of the fastener should not exceed 12.5 mm (0.5 in).
Camera Installation As the diagram below indicates, be sure to allow adequate space for cable egress behind the gland. This requirement may vary, depending on the installation. Maintain the bend radius per the recommendation of the cable manufacturer. The typical cable bend radius is 50-75 mm (2-3 in). Figure 1-3: Rear Cable Bend Radius 1.3.7 Camera Mounting with Concealed Cable Wall Mount The FC-Series camera can be secured to the optional Concealed Cable Wall Mount with four M5 x 0.
Camera Installation 1.3.8 Sunshield The camera includes a sunshield which should be used for any installation where the camera is exposed to direct sunlight or precipitation, If the camera is mounted with the top mounting holes, the sunshield is not used. Depending on the needs of the installation, the sunshield can be positioned in the neutral (middle) position, or slightly forward or rearward.
Camera Installation 1.4 Camera Connections Figure 1-7: Camera Connections Refer to Table 1-1 for a description of these camera connections. Table 1-1: FC-Series Camera Connections Connection 1.4.
Camera Installation customer supplied microSD card (up to 64 GB) is installed, local storage is persistent through reboots and power cycles. Pull back cage to unlock Close cage, press down and push forward to lock Insert microSD card Lift edge to open 1.4.2 Bench Testing Note If the camera is to be mounted on a pole or tower or other hard-to-reach location, it may be a good idea to connect and operate the camera as a bench test at ground level prior to mounting the camera in its final location.
Camera Installation The power cable supplied by the installer must use wires that are sufficient size gauge for the supply voltage and length of the cable run to ensure adequate current carrying capacity (18 AWG recommended for most installations). Always follow local building/safety codes. Strip ends 3 Places (0.2±.04 in) 6.0±1 mm Remove outer jacket (0.8±.20 in) 20.0±5 mm Power Cable Note The terminal connector for power connections will accept 16 AWG to 24 AWG wire size.
Camera Installation The spring-cage and pierce contact accepts 22 AWG to 24 AWG, stranded conductors with a 1.6 mm maximum diameter including insulation. Do not strip insulation from conductors. Table 1-3: GPIO Connections - J5 Pin Connection 1 Chassis ground 2 GPIO Out 3 GPIO Out 4 GPIO In2 (Digital ground) 5 GPIO In1 (+5V) 6 Chassis ground Notes Pin 1 When the camera sends an output signal, an external voltage on one pin is applied to the other pin.
Camera Installation 1.4.8 Rear Access Cable Gland Sealing Proper installation of cable sealing gland and use of appropriate elastomer inserts is critical to long term reliability. Cables enter the rear of the camera mount enclosure through a liquid-tight compression gland. Table 1-3: Rear Exit Cable Min/Max Dimensions Cable Min Max Power (3 conductor), Ethernet, Accessory cables 4.5 mm [0.178 in] 5.2 mm [0.205 in] RG 59 Video cable 5.3 mm [0.209 in] 6.2 mm [0.
Camera Installation 1.5 Concealed Cable Mount Accessory Do not route cables through the bottom of the camera unless the concealed cable wall mount (PN 4129742) is used. The wall mount is specifically designed for the camera and allows the opening to seal properly. When using the concealed cable wall mount, cable dimensions must be within the minimum and maximum as described in Table 1-4.
Camera Installation Step 4 Install the wall mount (PN 4129742) to the wall and pull the cable(s) through the mount. Cut a small cross-slit in the black mount gasket and push the cable(s) through the gasket. Pull the cable(s) through the opening in the bottom of the camera. A single Ethernet cable is shown in the images. Mount Gasket Figure 1-15: Camera Mount Step 5 Secure the camera to the mount using four M5 x 0.8 threaded fasteners to the bottom of the camera.
Camera Installation 1.6 Camera Specifications Thermal Camera Array Format 640 x 512, 336 x 256 (17 µm pixel pitch) 320 x 256 (34 µm pixel pitch) Detector Type Long-Life, Uncooled VOx Microbolometer Effective Resolution 640 x 512: 327,680 336 x 256: 86,016 320 x 256: 81,920 Spectral Range 7.5 to 13.5 µm Lens Athermalized, focus-free E-zoom Continuous to 4x Field Of View (Focal Length) for available 640 x 512 camera lens configurations. Camera Model Video FC-690 90° × 69° (7.
Camera Installation General Weight 4.55 lb (2068 g) with sun shield (7.5 mm, 9 mm, 13 mm, 19 mm, 25 mm, 35 mm) 5.20 lb (2364 g) with sun shield (60 mm) 5.65 lb (2568 g) with sun shield (75 mm) Dimensions (L,W,H) 9.2" x 4.6" x 4.1" without sun shield, (234 mm x 117 mm x 104 mm) 11.5" x 5.1" x 4.6" with sun shield, (292 mm x 130 mm x 117 mm) General Purpose Input/ Output (GPIO) One input dry alarm contact; One output relay contact (rated load 0.
2 Basic Operation and Configuration This chapter provides basic information on how to operate the FC-Series camera. A bench test can be used to verify camera operation before the camera is configured for the local network. This chapter also provides general configuration information. 2.1 IP Camera, ONVIF Profile S Compliant When connected to the network the camera functions as a server; providing services such as camera control, video streaming, network communications, and geo-referencing capabilities.
Basic Operation and Configuration Step 3 From the PC connected to the camera network, use the DNA utility to discover and display the camera’s current IP address. a Download the DNA utility. b c Unzip the utility, then double-click to run the executable file ( DNA.exe). All the units on the VLAN are discovered. For additional instructions on using DNA, refer to the DNA User’s Manual available in the Help ( ) link while the software is running.
Basic Operation and Configuration 2.3.1 Log in to the Camera Web Page Open a web browser — Google Chrome, Mozilla Firefox, Microsoft Internet Explorer 11, or Microsoft Edge — and enter the camera’s IP address. The login screen with a picture of the camera will appear. Figure 2-1: Camera Web Page Login Screen Enter admin for the User Name and the admin user’s password, and click Log in. The default admin user’s password is admin.
Basic Operation and Configuration 2.3.2 Live Video Page The Live Video page displays a live image from the camera on the left part of the screen and at the top of the screen navigation options: Live Video (the red text indicates it is selected), Setup, Maintenance, Help, and Log out. Video Source Snapshot Toggle Time Figure 2-2: Live Video Web Page—FC-Series ID In the lower right of the web page there is a frame rate selector.
Basic Operation and Configuration Camera Control and Status In the lower left of the screen are two indicator “lights”: Control and Status. Initially the Control light is off, as in the image above, indicating the user is not able to control the camera immediately. When multiple users are connected to a camera, only one user at a time can issue commands to the camera. If another user has control of the camera, the Control light is yellow.
Basic Operation and Configuration Perform IR NUC Calibration This button causes the camera to perform a Non-Uniformity Correction operation (refer to Image freezes momentarily, pg. 40). Function The FC-Series cameras may have additional features or functions which can be accessed using an extra numeric function keypad. When the button is selected, the keypad changes to a numeric keypad providing programmed functions (1 - 9). Select the back arrow to return to the main keypad.
Basic Operation and Configuration In the lower right of the Live Video web page, under the frame rate selector, click Advanced and then change the Web Session Timeout setting. To disable the timeout, select No. Click Advanced Select timeout in minutes The setting only applies while the Live Video page is open. Logging out, navigating to the Setup or Maintenance menus, rebooting, or performing a power cycle resets the Web Session Timeout setting to its default, 20 minutes. 2.
Basic Operation and Configuration 2.4.2 Server Menu When the Server menu is selected, the LAN Settings page appears. The basic camera configuration steps are accessed through the Maintenance Server menu, using the menus on the left side of the page. The LAN Settings, Services, and Security Options selections are described below. With most configuration changes through the Maintenance menu, it is necessary to save the changes, then stop and restart the server to make the changes take effect.
Basic Operation and Configuration When the IP address is changed and the Save button is clicked, a pop-up message will appear to indicate the network interface must be restarted. Once the IP address of the camera is changed, the PC may no longer be on the same network and therefore may not be able to access the camera until the IP address on the PC is changed also. For that reason, it makes sense to change the IP address after making other configuration changes. IEEE 802.1X Security The 802.
Basic Operation and Configuration Step 6 Use the Browse and Upload buttons to upload the Client Certificate from the server provided by the network administrator. Step 7 Using the Browse and Upload buttons, upload the Private Key and Private Key Password associated with the identity. The Private Key Password field can be left blank if a password is not required. If uploading a PKCS #8 file, the private key must be a valid PKCS #8 file.
Basic Operation and Configuration If the Custom mode is selected, a pop-up window allows the information to be entered manually. Note The Nexus server must be stopped before making changes to the date and time settings. Set the date and time parameters, then select the Save button at the bottom of the page. After saving the settings, reboot the system. Refer to Server Status Page, pg. 36.
Basic Operation and Configuration Notification Lists Page: Use this page to setup multiple email addresses and other notifications that can be sent as a result of alarms being processed by the Alarm Manager. TLS Config Page: The settings on this page enable secure, encrypted communication between clients and the camera; for example, when your web browser accesses the camera’s web interface. Note The camera also supports TLS authentication over the camera’s LAN.
Basic Operation and Configuration private and public key files. If the certificate was signed by a third-party CA, you can download the CA Certificate and the private and public key files. To generate and install a self-signed certificate: Step 1 Under Generate Certificate, for Method, select Self-Signed. Step 1 Enter information such as country code, city name, and organization name. Step 2 Scroll to the bottom of the page and click Generate Certificate.
Basic Operation and Configuration To upload a self-signed or third-party CA signed certificate: Step 1 For Method, select Upload Certificates. Step 2 If you are uploading a self-signed certificate, under Upload Certificate, browse for and upload the public key file. Then, under Private Key, browse for and upload the private key file. If you are uploading a third-party CA signed certificate, under Upload Certificate, browse for and upload the public key file.
Basic Operation and Configuration SNMP Config Page: The setting on this page enables or disables SNMP. (By default, SNMP is disabled.
Basic Operation and Configuration Note If the server unexpectedly stops, it automatically and immediately restarts. After manually stopping the server and not manually restarting it within one hour, the server automatically restarts.
Basic Operation and Configuration To maintain security of the system, set new passwords for all of the login accounts. Passwords must consist of at least 12 characters and include at least one uppercase letter, one lowercase letter, and one number. Passwords can include the following special characters: |@#~!$&<>+_-.,*?= . • admin—Can access and use the camera's web page and all of its menus, including setting all passwords.
Basic Operation and Configuration The thermal camera, on the other hand, detects energy that is directly radiated from objects in the scene. Most objects in typical surroundings are not hot enough to radiate visible light, but they easily radiate energy in the portion of the infrared spectrum that the camera can detect, the long wave infrared (LWIR). Even very cold objects, like ice and snow, radiate this type of energy.
Basic Operation and Configuration Use the following procedure and solvents, as required: • Acetone – removal of grease • Ethanol – removal of fingerprints and other contaminants • Alcohol – final cleaning (before use) Step 1 Immerse lens tissue (optical grade) in Alcohol, Acetone, or Ethanol (reagent grade). Step 2 With a new tissue each time, wipe the lens in an “S” motion (so that each area of the lens will not be wiped more than once). Step 3 Repeat until the lens is clean.
Basic Operation and Configuration When displaying video with FLIR Latitude or a VMS for the first time, the Windows Personal Firewall may ask for permission to allow the video player to communicate on the network. Select the check boxes (domain/private/public) that are appropriate for the network. If necessary, test to make sure the video from the camera can be viewed by a generic video player such as VLC media player (http://www.videolan.org/vlc/).
Basic Operation and Configuration it may be difficult for the camera to show the temperature of the object itself, rather than of the water coating. Image too dark or too light By default the FC-Series camera uses an Automatic Gain Control (AGC) setting that has proven to be superior for most applications, and the camera will respond to varying conditions automatically. The installer should keep in mind that the sky is quite cold and can strongly affect the overall image.
3 Advanced Configuration In this chapter, additional setup and configuration settings related to the following topics are described: • • • • • • Setting up the video streams to optimize quality and network performance Optimizing the thermal image Setting up detection areas for Analytics Configuring alarm responses and email notifications Configuring the camera to work with a third-party VMS (ONVIF) Enabling On-Screen Display (OSD) text When configuration changes are made with the web browser, the settin
Advanced Configuration 3.1.1 Temperature Page The Temperature Info page displays temperature readings from the camera and GPIO signal status. Thermo Summary Select the temperature units to display: Kelvin, degree Celsius, or degree Fahrenheit.
Advanced Configuration 3.1.2 Video Page By default, two video streams are enabled for the camera: Video 0 and Video 1. Both video streams are available for viewing from a client program such as FLIR Latitude, a stand-alone video player, or a third-party VMS (including ONVIF systems). By default, Video 0 uses MJPEG encoding and Video 1 uses H.264 encoding. To modify parameters that affect a particular IP Video stream from the camera, select the appropriate link (for example, Video - 0).
Advanced Configuration The I-Frame Interval parameter controls the number of P-frames used between I-frames. I-frames are full frames of video and the P-frames contain the changes that occurred since the last I-frame. A smaller I-Frame Interval results in higher bandwidth (more full frames sent) and better video quality. A higher I-Frame Interval number means fewer I-frames are sent and therefore results in possibly lower bandwidth and possibly lower quality.
Advanced Configuration There are some challenges with streaming video over an IP network, when compared to applications which are less time-critical, such as email and web browsing. There are requirements which must be fulfilled to ensure satisfactory video quality in professional security environments.
Advanced Configuration changes to the video image to enhance the image by modifying one or more of the parameters. In most situations, it will be adequate to select a different Scene Preset (described below). However, be aware that when the conditions change the camera may need to be adjusted again; for that reason it is a good idea to know how to restore the factory default settings as well. In the IR page, a single JPEG image (a snapshot) is displayed in the upper right-hand corner.
Advanced Configuration When Custom is selected, a handle is shown in the center of the screen. Drag the handle to set the size of the ROI box. Drag the ROI box over the portion of the scene that will control the AGC. AGC: The AGC parameters affect how the overall IR video image appears. The default AGC algorithm is suitable for most installations, but further adjustments may provide a more appealing image, depending on personal preferences.
Advanced Configuration Corridor Mode: Use the Corridor Mode options to set the orientation of the video when the camera is mounted in a position other than upright. This setting also changes the video analytics parameters for FC-Series ID cameras to match the orientation of the camera mounting. Save Settings Click the Save Settings button at the bottom of the page to store the current settings as power up defaults.
Advanced Configuration Calibration progress Add Areas Global Settings Calibration Tools Figure 3-1: Analytics Page Analytics Calibration • The camera must be mounted in its final location in order to calibrate the scene in the field of view using either the auto or manual calibration tool. • Analytics must be enabled to calibrate the scene. • Set detection areas, tripwires, and dependency. • After calibration is finished, verify that the analytics detect and classify objects as expected.
Advanced Configuration Step 3 Click Relearn. The camera automatically calibrates the depth of the FoV based on people walking in the scene. Be sure that people are walking along the entire vertical axis of the FoV until calibration is finished. The On-Screen Display shows the progress as a percentage in the upper left corner of the video (see Figure 3-1). If the calibration takes too long, the scene may require manual calibration.
Advanced Configuration Global Settings: Click the settings icon image to access Global Settings. below the There are three settings for sensitivity which control the threshold for detection (as well as false alarms): Low, Medium, and High. When set to low, the analytics will detect fewer objects (also fewer false alarms) than when set to high. Set Show Regions to Yes to show any detection areas as black boxes and tripwires as black lines in the video.
Advanced Configuration Selected Region (Alarm Id 3) Select Direction Select targets Set dependency Manual Selection Save Add Region Analytics On/Off To create a more complex area with more than four corners or a Tripwire, or to mask an area of the video from motion detection, select the manual selection icon . • With Area selected, click in the video to create the first corner of the area. Continue adding corners (up to 16), then select Finish to complete the area.
Advanced Configuration Step 4 Specify the Time Interval in seconds. The camera triggers an alarm when it detects an object in the first analytics region and then in the second region within this time period. An example of dependency appears in the image above: The camera triggers an alarm when it detects an object in Area 1 and then an object crossing Tripwire 3 within 10 seconds. Tripwire 3 (D) has been selected from the Regions list; it is the first detection region.
Advanced Configuration 3.2.1 Sensor Menu The configuration changes commonly used are done through the Sensor menu. Described below are configuration steps from the Communications and Modules selections. Communications Menu The primary IP configuration parameters, such as IP address, network mask, and gateway, are configured with the LAN Settings page (refer to LAN Settings Page, pg. 29). The Networking page can be used to configure some of the other IP networking parameters.
Advanced Configuration If the Enable Network Broadcast Discovery parameter is set to Yes, the camera sends out a “discovery” packet on the network every half second as an Ethernet broadcast. To restrict client programs to allowed IP addresses, enter allowed IP addresses in the Remote Clients list, then set the Allow anonymous clients parameter to No, and click Save. The changes will not take effect until the server is stopped and started.
Advanced Configuration VMS Remote: The VMS Remote page provides communication interfaces for devices that connect to the camera. Authentication when enabled uses the same passwords set from the Server Security Options page. Refer to Security Options Page, pg. 37. For ONVIF, use the settings in Interface 1 Scroll down For Nexus CGI, use the settings in Interface 0 Nexus CGI Interface After the interface is configured, scroll down and click on the Save button to save the configuration.
Advanced Configuration Step 1 Select Maintenance > Sensor > Communications > VMS Remote. Click Select Step 2 Click + ( ). Step 3 From the drop-down list, select IOI Interface. Click Step 4 Click Create. Step 5 Accept the message “Data for INTERFACE2 saved correctly”. Step 6 Using the Start button at the bottom of the page, Stop and Start the server. Click Accept at the prompt. The status will show Server Stopped. Click on the Start button again to restart the server.
Advanced Configuration Step 3 Ensure that the FC-Series ID detection regions are setup to correspond to the presets on the trk-101-P (refer to Creating Analytics Regions, pg. 53). Step 4 Login to the trk-101-P web interface. Step 5 Select Setup Step 6 From the Camera > Type & Model screen, verify that the Camera Model is configured as PTZ. Step 7 Click Start PTZ Setup. Step 8 On the Detection and Tracking screen, select Detection from another camera with Automatic PTZ tracking. Click Next.
Advanced Configuration Devices Menu GPIO Page: On the GPIO page, scroll down to read the current I/O parameters. GPIO is enabled by default. Default Settings The GPIO must be wired during installation, refer to GPIO Connections, pg. 15. The status of the GPIO signals are displayed on the Temperature page from the Setup menu, refer to Temperature Page, pg. 44. The illustration at the right shows the default settings for the output signal channel, Input/Output 0.
Advanced Configuration • Set Alarm Output GPIO Logic to Positive for a normally open switch signal (circuit closes for alarm), Set GPIO Logic to Negative for a normally closed switch signal (circuit opens for alarm). The illustration at the right shows the default settings for the input signal channel, Input/Output 1. • The Label setting can be changed to reflect more specific alarm information which can then appear in VMS systems such as FLIR Latitude.
Advanced Configuration Step 2 Scroll down to the TRK Metadata section. Step 3 From the TRK Enabled drop-down list, select Yes. Step 4 In the TRK IP Address text box, enter the IP address of the trk-101-P. Step 5 From the TRK Video Input drop-down list, select Analog if the camera’s analog video output is connected to the trk-101-P’s analog video input. Otherwise, select Digital. Step 6 Click Save.
Advanced Configuration If you select Digital input, digital analytics output over IP, type the RTSP URL for the camera’s secondary video stream (ch1). If the camera’s RTSP authentication is enabled, then select Is Authentication Required and type a valid user and password. Step 3 Click Apply. For more information about using the trk-101-P, see the FLIR ioi HTML Edition Units User Guide. Modules Menu This section describes the OSD Page (OSD) page, and Alarm Manager Page page.
Advanced Configuration For example, you can configure these OSD options for the Label when the Custom Text Mode is selected: The OSD text will appear on the IP video streams. Alarm Manager Page: Use the Alarm Manager page to set the response (action) that results from an individual alarm. It is possible to have more than one action for a single alarm by adding additional rules (for example, one action could capture an image and another could generate an output).
Advanced Configuration Alarm Source When the source of alarms are internal, for example, from Video Analytics or GPIO Input, the Alarm Source Server IP Address is set to the localhost value of 127.0.0.1 and the TCP port is the default 1001. For internal alarms, the FC-Series camera Alarm Source Device ID is set to 0. The Alarm Source Device Type is chosen from a pull down menu; not all options are available for a specific camera or installation.
Advanced Configuration Each rule that sends a notification also has the option to send an activity report to the same notification list every 6, 12, or 24 hours. The activity report indicates whether or not an alarm was triggered during the specified time period. Note that this can be selected on a rule by rule basis. When the Alarm Action is set to Capture Image File, a snapshot is stored when the alarm occurs.
Advanced Configuration Video Analytics Alarm to Email Shown at the right is an example of an alarm rule that causes an email notification (with a snapshot image) to be sent when a motion alarm occurs in Analytics Region 0 or Region 1 (Area or Tripwire). Refer to Creating Analytics Regions, pg. 53). The Alarm Source Device Type is set to Video Analytics with Alarm Id set to “1” corresponding to Analytics Area 1.
Advanced Configuration GPIO Output from Motion Alarm The final example shows an alarm rule that causes a GPIO output when a motion alarm is detected. The source Alarm Id set to 1 corresponds to Region number 1 on the Analytics Setup page. Note: the Associated I/O Port is set to 0, and the Associated I/O Index is set to 0 (corresponding to Input/Output 0). The GPIO Output State Mode can be set as Bound or Unbound.
Advanced Configuration Shown at the top of the screen is the configuration script file in a scrollable window. This can be useful if help is ever needed from a support engineer. Backup & Recovery In the Backup & Recovery section, click the Restore link associated with the factory.defaults configuration to restore the camera to its factory settings. This file can not be modified or deleted, so it is always available. Use the Backup button to make a backup of the final settings.
Advanced Configuration temporarily connecting a loopback device to the Ethernet port during initial power-up. The default setting is Yes. For more information, see Restoring the Factory Settings, pg. 74. Log Page: Use the Log page to set logging parameters. Scroll down and select the Download button under Field Support Log to download a zip file to the computer for field service evaluation.
Advanced Configuration After selecting a file, the file will appear in the Preview window. The file name contains the year, month, day, 24 hour clock time, and the sensor that captured the image. In this case IR0 is the only sensor. Select Download to download the selected file the PC. Select Refresh to check for any additional images since landing on the Media Browser page. Select Edit to select and delete individual images or all images.
Advanced Configuration Click on the Update button to save the settings. The changes will not take effect until the server is stopped and started. Enter name Click Update Config File Page: On the Config File page, you can enable Dynamic Visual Optimization (DV8), perform supplemental flat field correction (sFFC), and change the sFFC offset mode. To perform sFFC or change the offset mode, you need to stop the Nexus Server. Caution! Enable DV8 or perform sFFC only at the recommendation of FLIR Support.
Advanced Configuration disable DV8, you might need to perform an sFFC. Enabling or diasbling DV8 takes effect immediately. You do not need to click Save. Performing sFFC can correct some types of thermal image issues. It requires placing a blackbody in front of the camera. To perform a one-time sFFC, click sFFC. By factory default, the camera dynamically adjusts sFFC according to the thermal sensor’s focal plane array (FPA) temperature.
Advanced Configuration Pin # 1 2 3 4 5 6 7 8 427-0089-00-12 Version 180 Signal Transmit + Transmit Receive + Unused Unused Receive Unused Unused Tied to pin # 3 6 1 N/A N/A 2 N/A N/A August 2020 This document does not contain any export-controlled information.
FLIR Systems, Inc. 6769 Hollister Ave Goleta, CA 93117 USA Corporate Headquarters FLIR Systems, Inc. 27700 SW Parkway Ave. Wilsonville, OR 97070 USA Support: https://www.flir.com/support/ Document: 427-0089-00-12 Version: 180 Date: August 2020 This document does not contain any export-controlled information.
