APEX 200 User Manual V1.0.6 ICI Infrared Cameras Inc. APEX 200 User Manual Table of Contents 1.Safety Information..................................................................................................................................................1 3.Product Figure and Explanation........................................................................................................................ 3 4.Quick Start Guide................................................................................................................................................... 4 5.Product and Accessories List.............................................................................................................................5 6.Mechanical Installation......................................................................................................................................... 6 6.1 Installing Housings with Screws................................................................................................................. 7 6.1.1 Installing Front Housing.................................................................................................................... 7 6.1.2 Installing Rear Housing.....................................................................................................................7 6.2 Front Mounting...............................................................................................................................................8 6.3 Rear Mounting............................................................................................................................................... 9 7.Alarm Input and Output...................................................................................................................................... 10 7.1 Alarm Input................................................................................................................................................... 10 7.2 Alarm Output................................................................................................................................................10 8.Protocol Introduction.......................................................................................................................................... 11 8.1 Modbus TCP................................................................................................................................................ 11 8.2 MQTT............................................................................................................................................................ 11 9.Protocol Introduction.......................................................................................................................................... 19 9.1 Modbus TCP................................................................................................................................................ 19 10.Technical Data.....................................................................................................................................................20 11.Pin Configuration for Interfaces.................................................................................................................... 25 11.1 Ethernet Pin Configuration (8pin)...........................................................................................................25 11.2 Power Pin Configuration (12pin)............................................................................................................ 26 12.Mechanical Drawings........................................................................................................................................27 13.Common Troubleshooting...............................................................................................................................28 14.Cleaning Thermal Camera............................................................................................................................... 29 14.1 Cleaning Camera Housing, Cables and Other Items......................................................................... 29 14.2 Cleaning Infrared Lens.............................................................................................................................30 Appendix A Emissivity of Common Materials................................................................................................. 31 I APEX 200 User Manual 1.Safety Information WARNING 1.Before using the cleanser, make sure you read all applicable material safety data sheets (MSDS) and warning labels on cleanser containers. 2.Do not use too long screws when installing the front/rear mounting bracket, which may damage the thermal camera. temperature below-45 C. 3.It is prohibited to place the product in a high temperature above 70C or in a low 4.It is forbidden to disassemble or refit the infrared thermal camera at will. CAUTION 1.No matter there is a lens cover or not, do not point the infrared thermal camera towards strong light or equipment with laser radiation. This will affect the accuracy of the thermal camera and even damage the detector in the thermal camera. 2.Do not use the product under conditions that doesnt match the environmental requirements. For specific use environment requirements, see the product parameter table. items. 3.Do not apply solvents or equivalent liquids to the camera, the cables, or other 4.Be careful when you clean the infrared lenses. The lens has an anti-reflective coating which is easily damaged. Damage to the infrared lens can occur with too much force or cleaning with rough objects such as tissues. 1 2.Product Introduction APEX 200 User Manual Accurate temperature measurement Support multi-protocol access to industrial or IoT systems Compact size Main Features Support PoE Bi-spectrum display Powerful web client Wi-Fi hotspot Monitoring power distribution cabinet Typical Applications Monitoring warehouse Monitoring production line 2 APEX 200 User Manual 3.Product Figure and Explanation No. Explanation 1 2 3 4 5 6 7 8 Fill light Digital camera Infrared lens Power LED light Network LED light Reset button Ethernet and PoE cable interface DC power supply and alarm input/output Table 3.1 Explanation of Product Appearance 3 APEX 200 User Manual 4.Quick Start Guide Please follow the steps:
1. After installing the thermal camera in the desired position, use the cable to connect the thermal camera and the computer normally. There are two power supply methods for APEX 200. Connect the device to the PoE port of the power supply through the M12 8-pin adapter cable or connect to the DC power supply through the M12 12-pin adapter cable. Connect APEX 200 to the network, and wait for 2 minutes after powering on. The power indicator light is steady blue and the network indicator light flashes green, indicating that the network connection is normal. 2. Modify the computer network segment to be the same with that of thermal camera. The specific path is "Control Panel"-"Network and Internet"-"Network and Sharing Center"-"Change Adapter Options"-"Ethernet"-" Properties"-"Internet Protocol Version 4 (TCP/IPv4)" - "Use the following IP address"-set the IP address to 192.168.1.xxx. 3. After the power is on for 30 minutes, the temperature measurement, monitoring and analysis can be carried out through the web terminal of the computer. For web instructions, please refer to APEX 200 Online Dual-spectrum Thermal Camera Web Client Operation Manual. 4 APEX 200 User Manual 5.Product and Accessories List Product and Accessories APEX 200 44cm long M12 8-pin adapter cable Fixing accessories (screws, mounting stickers) Optional Accessories M12 12-pin adapter cable &alarm input/output cable front/rear mounting bracket Table 5.1 Product and Accessories List 5 APEX 200 User Manual 6.Mechanical Installation The front and back of the thermal camera are equipped with mounting interfaces, which can be installed with screws after the holes are punched with the auxiliary stickers in the package. In addition, we also provide two optional forms of front and back installation. WARNING Do not use too long screws in case of damaging the thermal camera. The maximum hole depth of the front shell is 10mm, and the maximum hole depth of the rear shell is 4mm. Its normal that the thermal camera will generate heat during operation. In order to sufficiently dissipate the heat, it is suggested that the back shell of the thermal camera should be fixed on a metal object to minimize the temperature drift of the infrared detector in thermal camera. 6 APEX 200 User Manual 6.1 Installing Housings with Screws 6.1.1 Installing Front Housing As shown in Figure 6.1, please paste the alignment guide to the position to be installed, and then drill 4 2.5 mounting holes according to the markers on the alignment guide, and use 4 ST2.2 screws to install the front housing. Figure 6.1 Front Housing Installation 6.1.2 Installing Rear Housing As shown in Figure 6.2, please paste the alignment guide to the position to be installed, and then drill 4 2.5 mounting holes according to the markers on the alignment guide, and use 4 M2 screws to install the rear housing. Figure 6.2 Rear Housing Installation 7 APEX 200 User Manual 6.2 Front Mounting There are four M4 threaded holes on the front mounting bracket for fixing. Step 1 Install the front mounting bracket As shown in Figure 6.3, connect the front mounting bracket and the thermal camera with ST2.2*8 self-tapping screws. The installation effect is shown in Figure 6.4. Step 2 Drill holes As shown in Figure 6.5, please paste the alignment guide to the position to be installed, and then drill four 4.5 mounting holes according to the markers on the alignment guide. Step 3 Install the thermal camera As shown in Figure 6.5, use M4 screws to install the thermal camera to the designated location. Figure 6.3 Figure 6.4 Figure 6.5 8 APEX 200 User Manual 6.3 Rear Mounting There are four M4 threaded holes on the rear mounting bracket for fixing. Step 1 Install the rear mounting bracket As shown in Figure 6.6, connect the rear mounting bracket and the thermal camera with ST2.2*8 self-tapping screws. The effect installation is shown in Figure 6.7. Step 2 Drill holes As shown in Figure 6.8, please paste the alignment guide to the position to be installed, and then drill four 4.5 mounting holes according to the markers on the alignment guide. Step 3 Install the thermal camera As shown in Figure 6.8, use M4 screws to install the thermal camera to the designated location. Figure 6.6 Figure 6.7 Figure 6.8 9 APEX 200 User Manual 7.Alarm Input and Output 7.1 Alarm Input 7.2 Alarm Output Support 1 active alarm input (photoelectric isolation), and the input voltage range is 35.5V. Support 2 alarm outputs (switch value and photoelectric isolation), 325VDC, maximum 85mA. 10 APEX 200 User Manual 8.Protocol Introduction 8.1 Modbus TCP This camera supports Modbus TCP protocol for transmitting temperature measurement information. M12 8-pin to RJ45 cable is required when using this protocol. Camera IP(default: 192.168.1.20 1502 R/W Length(word) Data Version No.e.g.0x0102 0x0304 = V1.2.3.4 IP Port Register Address 0x0001 0x0003 0x0004 0x0005 0x0006 0x0007 0x0009 0x000B 0x000E+N*4 0x000F+N*4 0x0010+N*4 8.2 MQTT R R R R R R R R R R R 2 1 1 1 1 2 2 2 1 1 1 1 0x000D+N*4 R Bit12: region type, box=0,line=1,point=2 the highest temperature of the entire frame, the actual temperature = (register value-2732) / 10.0 the average temperature of the entire frame the lowest temperature of the entire frame Region attributes, Bit0: region validness Bit3: whether temperature alarm is on Bit4:whether to trigger an alarm the highest temperature in the region the average temperature in the region the lowest temperature in the region
*N015 APEX 200 supports the MQTT protocol, as defined below:
1. The server sends the subject. APEX 200_ICI 2. Set the configuration MQTT parameters through the Web interface, and enable the MQTT function. The configuration will be valid after saving and restarting. The camera will automatically connect to the MQTT 11 server after restarting. APEX 200 User Manual 3. Data format is as follows:
Image data:
"timestamp": "2021.4.9.15:52", #time stamp
"ip": "192.168.1.21",
#camera IP
"type":
0,
#data type0-image 1-temperature 2-temperature measurement
"resolution": "1280*720",
#visible light resolution
"resolution": "1024*768",
#thermal resolution
"formate":
".jpg",
#image format
"image": "......"
# visible light image data base64 encode
"ir_image": "......"
# thermal image data base64 encode
Temperature data:
"timestamp": "2021.4.9.15:52", # time stamp
"ip": "192.168.1.21",
#camera IP 12 APEX 200 User Manual
# data type0-image 1-temperature 2-temperature measurement
"type":
1,
"unit":
"C",
#Unit
"data":
# temperature data base64 encode Temperature measurement data: temperature measurement function needs to be enabled in Web
"type":
2,
# data type0-image 1-temperature 2-temperature measurement
interface.
"timestamp": "2021.4.9.15:52", # time stamp
"ip": "192.168.1.21",
# camera IP
"subnetmask":
"255.255.255.0", #subnet mask
"gateway":
"192.168.1.1",
#gateway
"mac":
"86:5D:55:0B:A9:74", #MAC address
"uptime":33,
#boot time
"version":
"V0.2.7",
#software version
"airTemp":
25,
#air temperature()
"airtransmissivit": 1,
#air transmittance
"distance":
3,
#distance(m)
"emissivity": 0.95,
# emissivity
"reflectemp": 25,
# reflection temperature()
"maxtemp": 45.6,
"mintemp":
44.9,
"avgtemp":
45.3,
#maximum temperature of frame()
# minimum temperature of frame()
#average temperature of frame()
"list":
# 16 data in the temperature measurement area, enable=1 is valid
# temperature index
#enable temperature measuring or not
#type: 0- rectangle 1-line 2-point
#start: x value
#start: y value
#end: x value
#end: y value
"maxTemp": 45.5,
# maximum temperature of the region()
"minTemp": 45, # minimum temperature of the region()
"avgTemp": 45.3# average temperature of the region()
"index": 0,
"enable":1,
"type":
0,
"x0":
"y0":
"x1":
"y1":
67, 61, 125, 98,
"index": 1, 13
"enable":0,
"type":
"x0":
"y0":
"x1":
"y1":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 2,
"enable":0,
"type":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 3,
"enable":0,
"type":
"x0":
"y0":
"x1":
"y1":
"x0":
"y0":
"x1":
"y1":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 4,
"enable":0,
"type":
"x0":
"y0":
"x1":
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, APEX 200 User Manual 14
"y1":
0,
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 5,
"enable":0,
"type":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 6,
"enable":0,
"type":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 7,
"enable":0,
"type":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"x0":
"y0":
"x1":
"y1":
"x0":
"y0":
"x1":
"y1":
"x0":
"y0":
"x1":
"y1":
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, APEX 200 User Manual 15
"index": 8,
"enable":0,
"type":
"x0":
"y0":
"x1":
"y1":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 9,
"enable":0,
"type":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 10,
"enable":0,
"type":
"x0":
"y0":
"x1":
"y1":
"x0":
"y0":
"x1":
"y1":
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 11,
"enable":0,
"type":
"x0":
"y0":
0, 0, 0, APEX 200 User Manual 16
"x1":
"y1":
0, 0,
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 12,
"enable":0,
"type":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 13,
"enable":0,
"type":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
"index": 14,
"enable":0,
"type":
"x0":
"y0":
"x1":
"y1":
"x0":
"y0":
"x1":
"y1":
"x0":
"y0":
"x1":
"y1":
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0 APEX 200 User Manual 17 APEX 200 User Manual
"index": 15,
"enable":0,
"type":
0, 0, 0, 0, 0,
"x0":
"y0":
"x1":
"y1":
"maxTemp": 0,
"minTemp": 0,
"avgTemp": 0
18 APEX 200 User Manual 9.Protocol Introduction 9.1 Modbus TCP This camera supports Modbus TCP protocol for transmitting temperature measurement information. M12 8-pin to RJ45 cable is required when using this protocol. Camera IP(default: 192.168.1.20 1502 R/W Length
(word) Data Version No.e.g.0x0102 0x0304 = V1.2.3.4 IP Port Register Address 0x0001 0x0003 0x0004 0x0005 0x0006 0x0007 0x0009 0x000B 0x000E+N*4 0x000F+N*4 0x0010+N*4 R R R R R R R R R R R R 2 1 1 1 1 2 2 2 1 1 1 1 0x000D+N*4 Bit12: region type, box=0,line=1,point=2 the highest temperature of the entire frame, the actual temperature = (register value-2732) /
10.0 the average temperature of the entire frame the lowest temperature of the entire frame Region attributes, Bit0: region validness Bit3: whether temperature alarm is on Bit4:whether to trigger an alarm the highest temperature in the region the average temperature in the region the lowest temperature in the region
*N015 19 APEX 200 User Manual 10.Technical Data Detector Data Detector Type VOx, Uncooled FPA detector Spectral Range Pixel Pitch 814m 12m Imaging and Optical Data Resolution 256192 Infrared NETD Frequency Lens FOV Focus Visible Light FOV Fill Light 40mK 30Hz 3.2mm 5642 focus-free 7261 LED Visible Light Pixels 2 MP (SC2310) Temperature Measurement Object Temperature Range
-20550 Accuracy 2 or 2%
Point/Line/Area maximum 16 points/lines/areas Palette 18 palettes are available 20 APEX 200 User Manual distance, atmospheric temperature, emissivity, Environment Variable Correction reflection temperature, atmospheric transmittance Alarm The highest temperature, lowest temperature and average temperature in all temperature areas and lines can be configured with separate alarm outputs. 1 alarm input (photoelectric isolation, 3~5.5V);
2 alarm output (photoelectric isolation, 3~25VDC, Other alarms: save image/video, sending file
(FTP), email (SMTP), and flash alarm;
Alarm Function measurement points, temperature measurement Alarm Input/Output maximum 85mA) 21 APEX 200 User Manual Image transmission Image Stream Format H.264/H.265 Resolution Image Stream visible light1080P infrared support super resolution up to 4X, Max 1024768 thermal image, visible image, Image Mode fusion, DDE, and parallel display of visible light images are supported. Frequency Adjustment supported Data Stream Data Stream Transmission temperature stream, adjustable Storage Medium built-in 32GB storage Image Storage Storage Mode Storage Form File Format JPG, MP4 Visible and thermal images, frequency store thermal images and visible images simultaneously. local storage; connected to monitoring systems, such as NVR. 22 APEX 200 User Manual Ethernet Ethernet Functions control, imaging and power supply Ethernet Connector Type RJ45/ hotspot of thermal camera Ethernet Power Supply PoE is supported Network Protocol TCP,UDP,RTSP,HTTP,SMTP Interface Protocol ONVIF,GB28181,Modbus TCP,MQTT External Power PoE Typical Power Supply 1230V DC IEEE 802.3af Power Consumption 2W Dimension Weight Housing Material Physical Data 10955.929.5mm 170g Front shell is plastic and rear shell is aluminium alloy. 23 APEX 200 User Manual Environmental Data Encapsulation Operating Temperature Range Storage Temperature Range IP67
-1050
-4070 Humidity EMC Shock Vibration SDK 95% (no condensation) IEC 61000-4-2(anti-interference) IEC 61000-4-3(anti-radiation) 25G IEC68-2-29 2G IEC68-2-6 Cross-platform SDK that supports secondary development of customers. M12 A type 8-pin, including 10M / 100M adaptive Ethernet port and PoE power M12 A type 12-pin, including DC power supply, alarm input and output;
Certification CE/FCC/RoHS Others External Interface supply;
Table 10.1 APEX 200 Performance Parameters 24 APEX 200 User Manual 11.Pin Configuration for Interfaces 11.1 Ethernet Pin Configuration (8pin) Pin Configuration Pin Configuration 1 2 3 4 TX+
TX-
RX+
RX-
5 6 7 8 PD+
PD+
PD-
PD-
25 APEX 200 User Manual 11.2 Power Pin Configuration (12pin) Pin Configuration Pin Configuration 1 2 3 4 5 6 Power +
Power +
Power Ground Power Ground ALARM_POWER1 ALARM_OUT1 7 8 9 10 11 12 ALARM_POWER2 ALARM_OUT2 ALARM_IN+
ALARM_IN-
NC NC 26 APEX 200 User Manual 12.Mechanical Drawings 27 13.Common Troubleshooting APEX 200 User Manual Troubles Possible Cause Solutions The supply voltage exceeds the normal Camera cannot be working supply voltage started. range. Check whether the power supply voltage is between 12 and 24V The power connector is Check whether the power cable loose. is connected IP setting is wrong. computer address to the Manually configure the 192.168.1.XX Network cable After checking the network cable connection is loose. connection, restart the web. Web cannot be logged in. Image is stuck. 28 14.Cleaning Thermal Camera APEX 200 User Manual 14.1 Cleaning Camera Housing, Cables and Other Items Camera Housing, Cables and Other Items One of the following liquids can be used. Liquids 1.Warm water 2.A Weak detergent solution Cleaning Tools A soft cloth Cleaning Procedure Please follow this procedure:
1.Soak a soft cloth in the liquid. 2.Twist the cloth to remove excess liquid. 3.Clean the camera parts with the cloth. 29 APEX 200 User Manual 14.2 Cleaning Infrared Lens Liquids Cleaning Infrared Lens One of the following liquids can be used. 1.Commercial lens cleaning liquid with more than 30% is opropyl alcohol. 2.96% ethyl alcohol(C2H5OH). Cleaning Tools Dustless cloth, cotton wool Please follow this procedure (Take dustless cloth as an Cleaning Procedure example). 1.Soak the dustless cloth in the liquid. 2.Gently wipe the lens with the dustless cloth CAUTION The dustless cloth or cotton wool should be used one time only. 30 APEX 200 User Manual Appendix A Emissivity of Common Materials Temperature 0100 Emissivity 0.950.98 Material Water Soil(dry) Soil(wet) Woods Sand Sandstone PVC plastic Asphalt Paint Wallpaper Cloth Concrete Pavement surface Smooth porcelain Ceramic tile Gypsum Bricks Hard rubber Charcoal Granite(rough) Cold rolled steel Oxidized steel Copper Oxidized copper 20 20 17 20 19 70 20 70 20 20 20 5 20 17 17 35 20 70 50 20 50 31 0.9090.935 0.920.94 0.850.90 0.92 0.95 0.962 0.9 0.93 0.967 0.98 0.92 0.974 0.92 0.94 0.86 0.94 0.89 0.879 0.09 0.88 0.07 0.60.7 0100 20400 0.950.97 FCC Statement:
MODIFICATION: Any changes or modifications not expressly approved by the grantee of this de-
vice could void the users authority to operate the device. This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and (2) this device must accept any interference re-
ceived, including interference that may cause undesired operation. For a Class A digital device or peripheral, the instructions furnished the user shall include the fol-
lowing or similar statement, placed in a prominent location in the text of the manual:
Note:
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio commu-
nications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. The device should be installed and operated with minimum distance 7.9 inches (20 cm) between the radiator & your body. 32