高增益节点探测器HBO

光电探测器中光电导增益原理
光电探测器中光电导增益的原理是基于光电导效应。

当光照射在光电导材料上时，光子与材料中的电子相互作用，使电子从束缚态跃迁到自由态，形成非平衡载流子（即光生载流子）。

这些光生载流子在电场的作用下定向移动，形成光电流。

具体来说，光电导型光电探测器由半导体材料和欧姆接触电极构成。

当半导体吸收光子后，产生自由载流子，这些载流子在电场的作用下移动，从而在电极之间产生电势差或电压。

这个电压的大小与入射光的强度成正比，因此实现了光信号到电信号的转换。

在这个过程中，少数载流子的寿命决定了光电导增益的大小。

少数载流子寿命越长，能够产生的光电流越大，增益越高。

但同时，响应速度也会降低。

因此，需要在光电导增益和响应速度之间进行权衡。

以上信息仅供参考，建议查阅关于光电导增益的专业书籍或者咨询专业人士获取更多信息。

卡姆亨特便携式S波段谐波探测仪-------- 卡姆一号介绍石家庄市于栋电子科技公司是一家致力于电子元件、谐波信号智能探测技术研究、仪器设备制造与销售、软件开发和服务的高科技企业。

2006年公司开始进行非线性节点智能探测仪器（谐波信号智能探测）的研发工作，历经艰辛，于2013年推出世界第一款真正意义上的首家国内科技公司生产的非线性节点探测器即卡姆亨特便携式S波段谐波探测仪之卡姆一号，开创了非线性节点探测器国内生产的先河。

目前，公司拥有自主知识产权的“卡姆亨特”系列产品在政府、监狱、军队等特殊领域得到了广泛应用，赢得了广大客户的一致好评。

为了适应快速发展的市场需求，我公司与北京科技大学展开了广泛的技术交流与合作，并与北京科技大学计算机研究中心联合创建了新技术新产品研发实验室。

一、产品简介：卡姆亨特便携式S波段谐波探测仪是由石家庄于栋科技公司研发的一部高灵敏度、低误警率的超高频（2.45-3.6GHZ）仪器。

它是谐波雷达技术的一种运用，采用了频率数字合成、谐波模糊识别算法及自学习算法来提高该机的灵敏度，增强辨别并把漏报和误警减至最小。

卡姆亨特便携式S波段谐波探测仪主要应用于搜索和定位处于激活状态或关闭状态的窃听设备、起爆装置及其它含有半导体元件的类似设备，如手机、窃听器、扩音器、录音机、遥控器（电起爆装置）等等，广泛用于公安、特警、武警、监狱以及主席台、领导住地等的安检场所。

卡姆亨特便携式S波段谐波探测仪中的卡姆一号探测仪是当今世界上最先进的谐波探测仪，并且是为政府、监狱、军队等有关职业部门特别设计的。

在EOD搜查爆炸装置工作中，它可探测到电子接收及电子定时启爆装置。

尽管仪器是一种非常精致的电子装置，它的使用却是特别的简单，是安检防爆工作的有效器材。

二、技术原理卡姆亨特便携式S波段谐波探测仪的原理是运用电子元件晶体管产生的谐波再辐射特性，非线性结在收到基波辐射时，能够产生较强的二次谐波，而金属产生则是较强的三次谐波。

DIMENSIONSFEATURES Unit : inchAccessoriesSPECIFICATIONSImage Sensor.................. 1/3” Progressive Scan CMOS, 2MP Minimum Illumination....... 0.001 lux (INTENSIFY ‘On’)Effective Pixels................ 1984 (H) x 1105 (V) Total Pixels...................... 2000 (H) x 1121 (V) Scanning System............ Progressive S/N Ratio......................... More than 50dB Output Resolution............ 1920x1080 @ 30fps Video Output.................... 1.0Vp-p / 75 OhmsElectronic Shutter............ Auto / Manual (1/30 – 1/30,000 sec.) Day / Night....................... Auto / Color / BW / External Test Monitor Output......... CVBS (BNC out in Yellow)Communication............... UTC (up the coax)Power............................. 12VDC (power supply not included)Power Consumption........ 12VDC, 200mA max. Operating Temperature....14° F – 120° FUnit Dimensions.............. 1.65” (W) x 1.86” (H) x 2.2” (L) Unit Weight...................... 7 oz.Certifications.................... FCC, RoHS Signal Distance............... Up to 1600 feet(depending on coax quality)*1 Bracket2 Screws(for mounting)2 Screws (for bracket)• PRESET (Indoor/Outdoor/Lowlight/Hallway/Lobby/Elevator)• Full HD resolution over coax (HD -TVI)• Supports up to Full HD 1080p @ 30fps • True WDR operation• Superior low -light performance• Amplify existing light with no distance limitation • 3.6mm fixed lens• Full OSD operation through onboard control and UTC (TVI) • Additional 960H analog output (BNC out in Yellow)• Signal distance up to 1600 feet* • 12VDC operation • 5 year warrantyIRIS : Controls various settings related to the lens.ELC (Electronic Light Control) : Used with manual lens only, stay with this mode for this item.EXPOSURE : Adjusts exposure settings.BRIGHTNESS : Adjusts image brightness. (0~ 20) SHUTTER : Auto / Manual Shutter can be selectable - AUTO : Shutter can be selectable automatically.- FLICKER(Flicker Less) : Selects this when picture flickering. The picture flickering can be caused by a clash with the frequency of the installed lighting.- Manual : Controls the shutter speed manually from 1/30 ~1/30000 INTENSIFY : Sets the desired multiple of the digital exposure length. (OFF/x2 ~ x32)AGC(Auto Gain Control): Adjusts the AGC level. (0~10)OSD MENU DetailsEXPOSURE• B/W• EXTERN• LOW• MIDDLE• HIGH• SHARPNESS • GAMMA • MIRROR• FLIPDAY / NIGHTWHITE BAL.SPECO DNRIMAGEEXIT• BRIGHTNESS• SHUTTERBACKLIGHT• HLC• BLC• WDR• AUTO• AWB• COLOR GAIN• ACE• DEFOGSYSTEM• COM.• IMAGE RANGE • COLOR SPACE• FRAME RATE• INTENSIFY• AGC• COLOR• PRIVACYLENS MOTION • OUTPUT • LANGUAGE• COLOR BAR• RESET• CAMERA TITLE• FREQPRESET MODE• INDOOR • OUTDOOR • LOW LIGHT• LOBBY • HALLWAY • ELEVATORMAIN SETUP OSD MENU TREESpeco Technologies is constantly developing product improvements. We reserve the right to modify product design and specifications without notice and without incurring any obligation. Rev. 220818OSD MENU DetailsDAY / NIGHT : Adjust Day / Night options . COLOR : Always Color mode. B/W : Always B/W mode.- ANTI-SAT. : Adjusts the Anti Saturation level (0~20) EXT : please do not use this function.- ANTI-SAT. : Adjusts the Anti Saturation level (0~20) - EXTERN S/W : Selected at manufacturer side- D → N LEVEL (0~20) : Selected at manufacturer side - N → D LEVEL (0~20) : Selected at manufacturer side- DELAY : Adjusts the changing delay time (LOW/MIDDLE/HIGH) AUTO : Day / Night is switching automatically by AGC level. - ANTI-SAT. : Adjusts the Anti Saturation level (0~20) - AGC THRES : Adjusts AGC THRES (0~20) - AGC MARGIN : Adjusts AGC margin (0~20)- DELAY : Adjusts the changing delay time (LOW/MIDDLE/HIGH)COLOR : Adjusts white balancing options.AWB : it goes to optimized color level automatically. COLOR GAIN : Sets the desired Color Gain value (0~20) MAIN OUTPUT : ANALOG OUT (stay as it is) ANALOG OUT : TVI (stay as it is)SPECO DNR : Uses to reduce the background noise in a low luminance environment with 2D + 3D filtering system.- Adjusts the DNR level (LOW/MIDDLE/HIGH)BACKLIGHT : Adjusts backlight options.WDR : WDR illuminates darker areas of an image while retaining thesame light level for brighter areas to even out the overall brightness of images with high contrast between bright and dark area - Adjusts the WDR Weight (LOW/MIDDLE/HIGH) * CVBS out cannot adjust this function.BLC : Produces a clearer image of an object darkened by strong backlighting. - H-POS : Adjusts the horizontal position(0~20) - V-POS : Adjusts the Vertical position(0~20) - H-SIZE : Adjusts the horizontal block size (0~20) - V-SIZE : Adjusts the vertical block size (0~20)HLC : Uses to contain extremely bright areas such as from car headlight, the light can be masked out much of the on-screen details.IMAGE : Adjusts various image options.SHARPNESS: Adjusts sharpness level. Increasing this value, the picture outline becomes stronger and clear. (0~10) GAMMA : Sets the desired Gamma value. (0.45 ~ 0.75) MIRROR : Change the video direction horizontally. FLIP:Change the video direction perpendicularly.ACE (D-WDR) : Uses a digital wide dynamic range to balance dark and over saturated areas within the image.DEFOG : Activated this mode when the video or the weather is foggy. PRIVACY : Used to hide regions of the image. - ZONE NUM : Selects the zone number up 15. - ZONE DISP : Selects desired zone with ON or OFF - H-POS : Adjusts the horizontal position(0~60) - V-POS : Adjusts the vertical position(0~40) - H-SIZE : Adjusts the horizontal size(0~40) - V-SIZE : Adjusts the vertical size(0~40)- Y-LEVEL : Adjusts the yellow color level (0~20) - CR LEVEL : Adjusts the red color level (0~20) - CB LEVEL : Adjusts the blue color level (0~20)MOTION : Adjust motion detection settings.- SENSITIVITY : Sets the desired of “Motion” (0~20)- WINDOW TONE : Adjusts the window tone value (0~60) - WINDOW USE : Adjusts the window setting size (0~3) - WINDOW ZONE : activate or deactivate motion window - DET H-POS :Adjusts the horizontal position(0~60) - DET V-POS : Adjusts the vertical position(0~40) - DET H-SIZE : Adjusts the horizontal size(0~60) - DET V-SIZE : Adjusts the vertical size(0~40) - ALARM : Select Alarm between ON of OFFSYSTEM : Adjusts various camera system options. OUTPUTFRAME RATE: Select the frame rate 30fps/60fps according to the videooutput mode. FREQ COM.- CAM ID : Sets the camera ID for the RS-485 (0~255)- BAUD RATE : Sets the baud rate for the RS-485 (2400~115200). IMAGE RANGE COLOR SPACECOLOR BAR : Manufacturer’s optionLANGUAGE : Sets the desired OSD language CAMERA TITLERESET: Press with long to reset all settings to factory defaults.。

品名：非线性节点探测器XTS 2500产地：英国型号：XTS 2500XTS2500 NLJD用于对在简易爆破装置和无线电发射机中常有的电子电路的探测。

大多复杂的电子电路都包括非线性节点的半导体。

XTS2500 可以以两道三次的基本频率通过发出模仿非线性节点发出的谐波信号高频率的信号，找出它们。

XTS有两个高敏度的接收器来接收谐频，以可视可见的警报显示装置的接近。

●主要特性极好的探测范围，有效辐射功率高达4W 外加133dBm灵敏度自动DSP能量控制目标磁化饱和，提供更为精确的分析。

2.4GHz 操作频率，自动频率选择。

二次谐波自动识别算法微分音频音调最小错误警报。

连续波（CW）传动装置消除了由于挥动过快而错过目标的风险鲜明的AMOLED全彩触屏，外加无线蓝牙耳机单一转盘的主要功能操作，简单的用户界面有助于目标的评测重量轻，平衡的人体工程学设计，操作简易。

带有仪表，及快速适配锂电池●主要应用范围反监听装置的检测检测遥控的引爆装置，雷管,起爆管铁道运输检测隐藏弹药检测检测监狱里持有手机等通讯XTS2500 尽可能地多功能设计。

它为使用者提供了“多合一”单体配置或者通过腰带带揽的分离导线分开操作控制模块和电池。

为了操作的简易，XTS-2500有一个可伸长的臂杆，可以在不中断搜寻的情况下改变尺寸。

当目标在地上或在天花板上的时候，伸长杆可以快速的伸长进行搜索。

2.5 GHz操作的优势在现今的小环境中，电子器件的电路系统（尤其是手机）越变越小，使用频率越来越高。

XTS-2.5 GHz监测器的更高的频率就有了优势。

对于很多目标，XTS-2.5 GHz监测器要比800-900 MHz频率的更有效率，功率也更强劲。

它是一种便携式，易于使用的先进非线性结点探测器（NLJD）而闻名。

它能够在设备中定位和确认电子元件的存在，无论他们是否开启或已经关闭。

它可以让操作者搜索那些他们身体或视力所无法触及的空隙或区域，以便探测电子元件并确定该区域是不是有窃听装置或简易爆炸装置(IED).重量轻，采用现代技术。

空调行业常用名词缩写中英文对照E:Equalizer 均衡器E:Expander 扩展器EA-DFB:Electricity Absorb-Distributed Feedback 电吸收分布反馈ECC:Embedded Control Channel 嵌入或控制通道EDFA:Erbium-Doped Fiber Amplifier掺饵光纤放大器EDI:Electronic Data Interexchange 电子数据交换EIC:Electrical Impedance Characteristics 电阻抗特性EMC：Electro Magnetic Compatibiloty 电磁兼容性EMI:Electro Magnetic Interference 电磁干扰EMS:Electromagnetic Sensitibility 电磁敏感性EN:Equivalent Noise 等效噪声EP:Emergency Power 应急电源ES:Emergency Sooket 应急插座ES:Evacuation Sigvial疏散照明ESA:Error SecondA 误码秒类型AESB:ErrorSecondB 误码秒类型BESD:Electrostatic Discharge静电放电ESR:Errored Second Ratio 误码秒比率ETDM:Electrical Time Division Multiplexing电时分复用ETSI:European Telecommunication Standards Institute欧洲电信标准协会F:Filter 滤波器TOP FAB:Fire Alarm Bell 火警警铃FACU:Fire Alarm Contrlol Unit 火灾自动报警控制装置FC:Failure Count 失效次数FC:Frequency Converter 频率变换器FCC:Fire Alarm System 火灾报警系统FCS:Field Control System 现场总线FCU：Favn Coil Unit风机盘管FD:Fire Door 防火门FD:Flame Detector 火焰探测器FD:Floor DistributorFD:Frequency Dirsder 分频器FDD:Frequency Division Dual 频分双工FDDI：Fiberdistributed Data Interface光纤缆分布式数据接口。

3GPP TS 36.331 V13.2.0 (2016-06)Technical Specification3rd Generation Partnership Project;Technical Specification Group Radio Access Network;Evolved Universal Terrestrial Radio Access (E-UTRA);Radio Resource Control (RRC);Protocol specification(Release 13)The present document has been developed within the 3rd Generation Partnership Project (3GPP TM) and may be further elaborated for the purposes of 3GPP. The present document has not been subject to any approval process by the 3GPP Organizational Partners and shall not be implemented.This Specification is provided for future development work within 3GPP only. The Organizational Partners accept no liability for any use of this Specification. Specifications and reports for implementation of the 3GPP TM system should be obtained via the 3GPP Organizational Partners' Publications Offices.KeywordsUMTS, radio3GPPPostal address3GPP support office address650 Route des Lucioles - Sophia AntipolisValbonne - FRANCETel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16InternetCopyright NotificationNo part may be reproduced except as authorized by written permission.The copyright and the foregoing restriction extend to reproduction in all media.© 2016, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC).All rights reserved.UMTS™ is a Trade Mark of ETSI registered for the benefit of its members3GPP™ is a Trade Mark of ETSI registered for the benefit of its Members and of the 3GPP Organizational PartnersLTE™ is a Trade Mark of ETSI currently being registered for the benefit of its Members and of the 3GPP Organizational Partners GSM® and the GSM logo are registered and owned by the GSM AssociationBluetooth® is a Trade Mark of the Bluetooth SIG registered for the benefit of its membersContentsForeword (18)1Scope (19)2References (19)3Definitions, symbols and abbreviations (22)3.1Definitions (22)3.2Abbreviations (24)4General (27)4.1Introduction (27)4.2Architecture (28)4.2.1UE states and state transitions including inter RAT (28)4.2.2Signalling radio bearers (29)4.3Services (30)4.3.1Services provided to upper layers (30)4.3.2Services expected from lower layers (30)4.4Functions (30)5Procedures (32)5.1General (32)5.1.1Introduction (32)5.1.2General requirements (32)5.2System information (33)5.2.1Introduction (33)5.2.1.1General (33)5.2.1.2Scheduling (34)5.2.1.2a Scheduling for NB-IoT (34)5.2.1.3System information validity and notification of changes (35)5.2.1.4Indication of ETWS notification (36)5.2.1.5Indication of CMAS notification (37)5.2.1.6Notification of EAB parameters change (37)5.2.1.7Access Barring parameters change in NB-IoT (37)5.2.2System information acquisition (38)5.2.2.1General (38)5.2.2.2Initiation (38)5.2.2.3System information required by the UE (38)5.2.2.4System information acquisition by the UE (39)5.2.2.5Essential system information missing (42)5.2.2.6Actions upon reception of the MasterInformationBlock message (42)5.2.2.7Actions upon reception of the SystemInformationBlockType1 message (42)5.2.2.8Actions upon reception of SystemInformation messages (44)5.2.2.9Actions upon reception of SystemInformationBlockType2 (44)5.2.2.10Actions upon reception of SystemInformationBlockType3 (45)5.2.2.11Actions upon reception of SystemInformationBlockType4 (45)5.2.2.12Actions upon reception of SystemInformationBlockType5 (45)5.2.2.13Actions upon reception of SystemInformationBlockType6 (45)5.2.2.14Actions upon reception of SystemInformationBlockType7 (45)5.2.2.15Actions upon reception of SystemInformationBlockType8 (45)5.2.2.16Actions upon reception of SystemInformationBlockType9 (46)5.2.2.17Actions upon reception of SystemInformationBlockType10 (46)5.2.2.18Actions upon reception of SystemInformationBlockType11 (46)5.2.2.19Actions upon reception of SystemInformationBlockType12 (47)5.2.2.20Actions upon reception of SystemInformationBlockType13 (48)5.2.2.21Actions upon reception of SystemInformationBlockType14 (48)5.2.2.22Actions upon reception of SystemInformationBlockType15 (48)5.2.2.23Actions upon reception of SystemInformationBlockType16 (48)5.2.2.24Actions upon reception of SystemInformationBlockType17 (48)5.2.2.25Actions upon reception of SystemInformationBlockType18 (48)5.2.2.26Actions upon reception of SystemInformationBlockType19 (49)5.2.3Acquisition of an SI message (49)5.2.3a Acquisition of an SI message by BL UE or UE in CE or a NB-IoT UE (50)5.3Connection control (50)5.3.1Introduction (50)5.3.1.1RRC connection control (50)5.3.1.2Security (52)5.3.1.2a RN security (53)5.3.1.3Connected mode mobility (53)5.3.1.4Connection control in NB-IoT (54)5.3.2Paging (55)5.3.2.1General (55)5.3.2.2Initiation (55)5.3.2.3Reception of the Paging message by the UE (55)5.3.3RRC connection establishment (56)5.3.3.1General (56)5.3.3.1a Conditions for establishing RRC Connection for sidelink communication/ discovery (58)5.3.3.2Initiation (59)5.3.3.3Actions related to transmission of RRCConnectionRequest message (63)5.3.3.3a Actions related to transmission of RRCConnectionResumeRequest message (64)5.3.3.4Reception of the RRCConnectionSetup by the UE (64)5.3.3.4a Reception of the RRCConnectionResume by the UE (66)5.3.3.5Cell re-selection while T300, T302, T303, T305, T306, or T308 is running (68)5.3.3.6T300 expiry (68)5.3.3.7T302, T303, T305, T306, or T308 expiry or stop (69)5.3.3.8Reception of the RRCConnectionReject by the UE (70)5.3.3.9Abortion of RRC connection establishment (71)5.3.3.10Handling of SSAC related parameters (71)5.3.3.11Access barring check (72)5.3.3.12EAB check (73)5.3.3.13Access barring check for ACDC (73)5.3.3.14Access Barring check for NB-IoT (74)5.3.4Initial security activation (75)5.3.4.1General (75)5.3.4.2Initiation (76)5.3.4.3Reception of the SecurityModeCommand by the UE (76)5.3.5RRC connection reconfiguration (77)5.3.5.1General (77)5.3.5.2Initiation (77)5.3.5.3Reception of an RRCConnectionReconfiguration not including the mobilityControlInfo by theUE (77)5.3.5.4Reception of an RRCConnectionReconfiguration including the mobilityControlInfo by the UE(handover) (79)5.3.5.5Reconfiguration failure (83)5.3.5.6T304 expiry (handover failure) (83)5.3.5.7Void (84)5.3.5.7a T307 expiry (SCG change failure) (84)5.3.5.8Radio Configuration involving full configuration option (84)5.3.6Counter check (86)5.3.6.1General (86)5.3.6.2Initiation (86)5.3.6.3Reception of the CounterCheck message by the UE (86)5.3.7RRC connection re-establishment (87)5.3.7.1General (87)5.3.7.2Initiation (87)5.3.7.3Actions following cell selection while T311 is running (88)5.3.7.4Actions related to transmission of RRCConnectionReestablishmentRequest message (89)5.3.7.5Reception of the RRCConnectionReestablishment by the UE (89)5.3.7.6T311 expiry (91)5.3.7.7T301 expiry or selected cell no longer suitable (91)5.3.7.8Reception of RRCConnectionReestablishmentReject by the UE (91)5.3.8RRC connection release (92)5.3.8.1General (92)5.3.8.2Initiation (92)5.3.8.3Reception of the RRCConnectionRelease by the UE (92)5.3.8.4T320 expiry (93)5.3.9RRC connection release requested by upper layers (93)5.3.9.1General (93)5.3.9.2Initiation (93)5.3.10Radio resource configuration (93)5.3.10.0General (93)5.3.10.1SRB addition/ modification (94)5.3.10.2DRB release (95)5.3.10.3DRB addition/ modification (95)5.3.10.3a1DC specific DRB addition or reconfiguration (96)5.3.10.3a2LWA specific DRB addition or reconfiguration (98)5.3.10.3a3LWIP specific DRB addition or reconfiguration (98)5.3.10.3a SCell release (99)5.3.10.3b SCell addition/ modification (99)5.3.10.3c PSCell addition or modification (99)5.3.10.4MAC main reconfiguration (99)5.3.10.5Semi-persistent scheduling reconfiguration (100)5.3.10.6Physical channel reconfiguration (100)5.3.10.7Radio Link Failure Timers and Constants reconfiguration (101)5.3.10.8Time domain measurement resource restriction for serving cell (101)5.3.10.9Other configuration (102)5.3.10.10SCG reconfiguration (103)5.3.10.11SCG dedicated resource configuration (104)5.3.10.12Reconfiguration SCG or split DRB by drb-ToAddModList (105)5.3.10.13Neighbour cell information reconfiguration (105)5.3.10.14Void (105)5.3.10.15Sidelink dedicated configuration (105)5.3.10.16T370 expiry (106)5.3.11Radio link failure related actions (107)5.3.11.1Detection of physical layer problems in RRC_CONNECTED (107)5.3.11.2Recovery of physical layer problems (107)5.3.11.3Detection of radio link failure (107)5.3.12UE actions upon leaving RRC_CONNECTED (109)5.3.13UE actions upon PUCCH/ SRS release request (110)5.3.14Proximity indication (110)5.3.14.1General (110)5.3.14.2Initiation (111)5.3.14.3Actions related to transmission of ProximityIndication message (111)5.3.15Void (111)5.4Inter-RAT mobility (111)5.4.1Introduction (111)5.4.2Handover to E-UTRA (112)5.4.2.1General (112)5.4.2.2Initiation (112)5.4.2.3Reception of the RRCConnectionReconfiguration by the UE (112)5.4.2.4Reconfiguration failure (114)5.4.2.5T304 expiry (handover to E-UTRA failure) (114)5.4.3Mobility from E-UTRA (114)5.4.3.1General (114)5.4.3.2Initiation (115)5.4.3.3Reception of the MobilityFromEUTRACommand by the UE (115)5.4.3.4Successful completion of the mobility from E-UTRA (116)5.4.3.5Mobility from E-UTRA failure (117)5.4.4Handover from E-UTRA preparation request (CDMA2000) (117)5.4.4.1General (117)5.4.4.2Initiation (118)5.4.4.3Reception of the HandoverFromEUTRAPreparationRequest by the UE (118)5.4.5UL handover preparation transfer (CDMA2000) (118)5.4.5.1General (118)5.4.5.2Initiation (118)5.4.5.3Actions related to transmission of the ULHandoverPreparationTransfer message (119)5.4.5.4Failure to deliver the ULHandoverPreparationTransfer message (119)5.4.6Inter-RAT cell change order to E-UTRAN (119)5.4.6.1General (119)5.4.6.2Initiation (119)5.4.6.3UE fails to complete an inter-RAT cell change order (119)5.5Measurements (120)5.5.1Introduction (120)5.5.2Measurement configuration (121)5.5.2.1General (121)5.5.2.2Measurement identity removal (122)5.5.2.2a Measurement identity autonomous removal (122)5.5.2.3Measurement identity addition/ modification (123)5.5.2.4Measurement object removal (124)5.5.2.5Measurement object addition/ modification (124)5.5.2.6Reporting configuration removal (126)5.5.2.7Reporting configuration addition/ modification (127)5.5.2.8Quantity configuration (127)5.5.2.9Measurement gap configuration (127)5.5.2.10Discovery signals measurement timing configuration (128)5.5.2.11RSSI measurement timing configuration (128)5.5.3Performing measurements (128)5.5.3.1General (128)5.5.3.2Layer 3 filtering (131)5.5.4Measurement report triggering (131)5.5.4.1General (131)5.5.4.2Event A1 (Serving becomes better than threshold) (135)5.5.4.3Event A2 (Serving becomes worse than threshold) (136)5.5.4.4Event A3 (Neighbour becomes offset better than PCell/ PSCell) (136)5.5.4.5Event A4 (Neighbour becomes better than threshold) (137)5.5.4.6Event A5 (PCell/ PSCell becomes worse than threshold1 and neighbour becomes better thanthreshold2) (138)5.5.4.6a Event A6 (Neighbour becomes offset better than SCell) (139)5.5.4.7Event B1 (Inter RAT neighbour becomes better than threshold) (139)5.5.4.8Event B2 (PCell becomes worse than threshold1 and inter RAT neighbour becomes better thanthreshold2) (140)5.5.4.9Event C1 (CSI-RS resource becomes better than threshold) (141)5.5.4.10Event C2 (CSI-RS resource becomes offset better than reference CSI-RS resource) (141)5.5.4.11Event W1 (WLAN becomes better than a threshold) (142)5.5.4.12Event W2 (All WLAN inside WLAN mobility set becomes worse than threshold1 and a WLANoutside WLAN mobility set becomes better than threshold2) (142)5.5.4.13Event W3 (All WLAN inside WLAN mobility set becomes worse than a threshold) (143)5.5.5Measurement reporting (144)5.5.6Measurement related actions (148)5.5.6.1Actions upon handover and re-establishment (148)5.5.6.2Speed dependant scaling of measurement related parameters (149)5.5.7Inter-frequency RSTD measurement indication (149)5.5.7.1General (149)5.5.7.2Initiation (150)5.5.7.3Actions related to transmission of InterFreqRSTDMeasurementIndication message (150)5.6Other (150)5.6.0General (150)5.6.1DL information transfer (151)5.6.1.1General (151)5.6.1.2Initiation (151)5.6.1.3Reception of the DLInformationTransfer by the UE (151)5.6.2UL information transfer (151)5.6.2.1General (151)5.6.2.2Initiation (151)5.6.2.3Actions related to transmission of ULInformationTransfer message (152)5.6.2.4Failure to deliver ULInformationTransfer message (152)5.6.3UE capability transfer (152)5.6.3.1General (152)5.6.3.2Initiation (153)5.6.3.3Reception of the UECapabilityEnquiry by the UE (153)5.6.4CSFB to 1x Parameter transfer (157)5.6.4.1General (157)5.6.4.2Initiation (157)5.6.4.3Actions related to transmission of CSFBParametersRequestCDMA2000 message (157)5.6.4.4Reception of the CSFBParametersResponseCDMA2000 message (157)5.6.5UE Information (158)5.6.5.1General (158)5.6.5.2Initiation (158)5.6.5.3Reception of the UEInformationRequest message (158)5.6.6 Logged Measurement Configuration (159)5.6.6.1General (159)5.6.6.2Initiation (160)5.6.6.3Reception of the LoggedMeasurementConfiguration by the UE (160)5.6.6.4T330 expiry (160)5.6.7 Release of Logged Measurement Configuration (160)5.6.7.1General (160)5.6.7.2Initiation (160)5.6.8 Measurements logging (161)5.6.8.1General (161)5.6.8.2Initiation (161)5.6.9In-device coexistence indication (163)5.6.9.1General (163)5.6.9.2Initiation (164)5.6.9.3Actions related to transmission of InDeviceCoexIndication message (164)5.6.10UE Assistance Information (165)5.6.10.1General (165)5.6.10.2Initiation (166)5.6.10.3Actions related to transmission of UEAssistanceInformation message (166)5.6.11 Mobility history information (166)5.6.11.1General (166)5.6.11.2Initiation (166)5.6.12RAN-assisted WLAN interworking (167)5.6.12.1General (167)5.6.12.2Dedicated WLAN offload configuration (167)5.6.12.3WLAN offload RAN evaluation (167)5.6.12.4T350 expiry or stop (167)5.6.12.5Cell selection/ re-selection while T350 is running (168)5.6.13SCG failure information (168)5.6.13.1General (168)5.6.13.2Initiation (168)5.6.13.3Actions related to transmission of SCGFailureInformation message (168)5.6.14LTE-WLAN Aggregation (169)5.6.14.1Introduction (169)5.6.14.2Reception of LWA configuration (169)5.6.14.3Release of LWA configuration (170)5.6.15WLAN connection management (170)5.6.15.1Introduction (170)5.6.15.2WLAN connection status reporting (170)5.6.15.2.1General (170)5.6.15.2.2Initiation (171)5.6.15.2.3Actions related to transmission of WLANConnectionStatusReport message (171)5.6.15.3T351 Expiry (WLAN connection attempt timeout) (171)5.6.15.4WLAN status monitoring (171)5.6.16RAN controlled LTE-WLAN interworking (172)5.6.16.1General (172)5.6.16.2WLAN traffic steering command (172)5.6.17LTE-WLAN aggregation with IPsec tunnel (173)5.6.17.1General (173)5.7Generic error handling (174)5.7.1General (174)5.7.2ASN.1 violation or encoding error (174)5.7.3Field set to a not comprehended value (174)5.7.4Mandatory field missing (174)5.7.5Not comprehended field (176)5.8MBMS (176)5.8.1Introduction (176)5.8.1.1General (176)5.8.1.2Scheduling (176)5.8.1.3MCCH information validity and notification of changes (176)5.8.2MCCH information acquisition (178)5.8.2.1General (178)5.8.2.2Initiation (178)5.8.2.3MCCH information acquisition by the UE (178)5.8.2.4Actions upon reception of the MBSFNAreaConfiguration message (178)5.8.2.5Actions upon reception of the MBMSCountingRequest message (179)5.8.3MBMS PTM radio bearer configuration (179)5.8.3.1General (179)5.8.3.2Initiation (179)5.8.3.3MRB establishment (179)5.8.3.4MRB release (179)5.8.4MBMS Counting Procedure (179)5.8.4.1General (179)5.8.4.2Initiation (180)5.8.4.3Reception of the MBMSCountingRequest message by the UE (180)5.8.5MBMS interest indication (181)5.8.5.1General (181)5.8.5.2Initiation (181)5.8.5.3Determine MBMS frequencies of interest (182)5.8.5.4Actions related to transmission of MBMSInterestIndication message (183)5.8a SC-PTM (183)5.8a.1Introduction (183)5.8a.1.1General (183)5.8a.1.2SC-MCCH scheduling (183)5.8a.1.3SC-MCCH information validity and notification of changes (183)5.8a.1.4Procedures (184)5.8a.2SC-MCCH information acquisition (184)5.8a.2.1General (184)5.8a.2.2Initiation (184)5.8a.2.3SC-MCCH information acquisition by the UE (184)5.8a.2.4Actions upon reception of the SCPTMConfiguration message (185)5.8a.3SC-PTM radio bearer configuration (185)5.8a.3.1General (185)5.8a.3.2Initiation (185)5.8a.3.3SC-MRB establishment (185)5.8a.3.4SC-MRB release (185)5.9RN procedures (186)5.9.1RN reconfiguration (186)5.9.1.1General (186)5.9.1.2Initiation (186)5.9.1.3Reception of the RNReconfiguration by the RN (186)5.10Sidelink (186)5.10.1Introduction (186)5.10.1a Conditions for sidelink communication operation (187)5.10.2Sidelink UE information (188)5.10.2.1General (188)5.10.2.2Initiation (189)5.10.2.3Actions related to transmission of SidelinkUEInformation message (193)5.10.3Sidelink communication monitoring (195)5.10.6Sidelink discovery announcement (198)5.10.6a Sidelink discovery announcement pool selection (201)5.10.6b Sidelink discovery announcement reference carrier selection (201)5.10.7Sidelink synchronisation information transmission (202)5.10.7.1General (202)5.10.7.2Initiation (203)5.10.7.3Transmission of SLSS (204)5.10.7.4Transmission of MasterInformationBlock-SL message (205)5.10.7.5Void (206)5.10.8Sidelink synchronisation reference (206)5.10.8.1General (206)5.10.8.2Selection and reselection of synchronisation reference UE (SyncRef UE) (206)5.10.9Sidelink common control information (207)5.10.9.1General (207)5.10.9.2Actions related to reception of MasterInformationBlock-SL message (207)5.10.10Sidelink relay UE operation (207)5.10.10.1General (207)5.10.10.2AS-conditions for relay related sidelink communication transmission by sidelink relay UE (207)5.10.10.3AS-conditions for relay PS related sidelink discovery transmission by sidelink relay UE (208)5.10.10.4Sidelink relay UE threshold conditions (208)5.10.11Sidelink remote UE operation (208)5.10.11.1General (208)5.10.11.2AS-conditions for relay related sidelink communication transmission by sidelink remote UE (208)5.10.11.3AS-conditions for relay PS related sidelink discovery transmission by sidelink remote UE (209)5.10.11.4Selection and reselection of sidelink relay UE (209)5.10.11.5Sidelink remote UE threshold conditions (210)6Protocol data units, formats and parameters (tabular & ASN.1) (210)6.1General (210)6.2RRC messages (212)6.2.1General message structure (212)–EUTRA-RRC-Definitions (212)–BCCH-BCH-Message (212)–BCCH-DL-SCH-Message (212)–BCCH-DL-SCH-Message-BR (213)–MCCH-Message (213)–PCCH-Message (213)–DL-CCCH-Message (214)–DL-DCCH-Message (214)–UL-CCCH-Message (214)–UL-DCCH-Message (215)–SC-MCCH-Message (215)6.2.2Message definitions (216)–CounterCheck (216)–CounterCheckResponse (217)–CSFBParametersRequestCDMA2000 (217)–CSFBParametersResponseCDMA2000 (218)–DLInformationTransfer (218)–HandoverFromEUTRAPreparationRequest (CDMA2000) (219)–InDeviceCoexIndication (220)–InterFreqRSTDMeasurementIndication (222)–LoggedMeasurementConfiguration (223)–MasterInformationBlock (225)–MBMSCountingRequest (226)–MBMSCountingResponse (226)–MBMSInterestIndication (227)–MBSFNAreaConfiguration (228)–MeasurementReport (228)–MobilityFromEUTRACommand (229)–Paging (232)–ProximityIndication (233)–RNReconfiguration (234)–RNReconfigurationComplete (234)–RRCConnectionReconfiguration (235)–RRCConnectionReconfigurationComplete (240)–RRCConnectionReestablishment (241)–RRCConnectionReestablishmentComplete (241)–RRCConnectionReestablishmentReject (242)–RRCConnectionReestablishmentRequest (243)–RRCConnectionReject (243)–RRCConnectionRelease (244)–RRCConnectionResume (248)–RRCConnectionResumeComplete (249)–RRCConnectionResumeRequest (250)–RRCConnectionRequest (250)–RRCConnectionSetup (251)–RRCConnectionSetupComplete (252)–SCGFailureInformation (253)–SCPTMConfiguration (254)–SecurityModeCommand (255)–SecurityModeComplete (255)–SecurityModeFailure (256)–SidelinkUEInformation (256)–SystemInformation (258)–SystemInformationBlockType1 (259)–UEAssistanceInformation (264)–UECapabilityEnquiry (265)–UECapabilityInformation (266)–UEInformationRequest (267)–UEInformationResponse (267)–ULHandoverPreparationTransfer (CDMA2000) (273)–ULInformationTransfer (274)–WLANConnectionStatusReport (274)6.3RRC information elements (275)6.3.1System information blocks (275)–SystemInformationBlockType2 (275)–SystemInformationBlockType3 (279)–SystemInformationBlockType4 (282)–SystemInformationBlockType5 (283)–SystemInformationBlockType6 (287)–SystemInformationBlockType7 (289)–SystemInformationBlockType8 (290)–SystemInformationBlockType9 (295)–SystemInformationBlockType10 (295)–SystemInformationBlockType11 (296)–SystemInformationBlockType12 (297)–SystemInformationBlockType13 (297)–SystemInformationBlockType14 (298)–SystemInformationBlockType15 (298)–SystemInformationBlockType16 (299)–SystemInformationBlockType17 (300)–SystemInformationBlockType18 (301)–SystemInformationBlockType19 (301)–SystemInformationBlockType20 (304)6.3.2Radio resource control information elements (304)–AntennaInfo (304)–AntennaInfoUL (306)–CQI-ReportConfig (307)–CQI-ReportPeriodicProcExtId (314)–CrossCarrierSchedulingConfig (314)–CSI-IM-Config (315)–CSI-IM-ConfigId (315)–CSI-RS-Config (317)–CSI-RS-ConfigEMIMO (318)–CSI-RS-ConfigNZP (319)–CSI-RS-ConfigNZPId (320)–CSI-RS-ConfigZP (321)–CSI-RS-ConfigZPId (321)–DMRS-Config (321)–DRB-Identity (322)–EPDCCH-Config (322)–EIMTA-MainConfig (324)–LogicalChannelConfig (325)–LWA-Configuration (326)–LWIP-Configuration (326)–RCLWI-Configuration (327)–MAC-MainConfig (327)–P-C-AndCBSR (332)–PDCCH-ConfigSCell (333)–PDCP-Config (334)–PDSCH-Config (337)–PDSCH-RE-MappingQCL-ConfigId (339)–PHICH-Config (339)–PhysicalConfigDedicated (339)–P-Max (344)–PRACH-Config (344)–PresenceAntennaPort1 (346)–PUCCH-Config (347)–PUSCH-Config (351)–RACH-ConfigCommon (355)–RACH-ConfigDedicated (357)–RadioResourceConfigCommon (358)–RadioResourceConfigDedicated (362)–RLC-Config (367)–RLF-TimersAndConstants (369)–RN-SubframeConfig (370)–SchedulingRequestConfig (371)–SoundingRS-UL-Config (372)–SPS-Config (375)–TDD-Config (376)–TimeAlignmentTimer (377)–TPC-PDCCH-Config (377)–TunnelConfigLWIP (378)–UplinkPowerControl (379)–WLAN-Id-List (382)–WLAN-MobilityConfig (382)6.3.3Security control information elements (382)–NextHopChainingCount (382)–SecurityAlgorithmConfig (383)–ShortMAC-I (383)6.3.4Mobility control information elements (383)–AdditionalSpectrumEmission (383)–ARFCN-ValueCDMA2000 (383)–ARFCN-ValueEUTRA (384)–ARFCN-ValueGERAN (384)–ARFCN-ValueUTRA (384)–BandclassCDMA2000 (384)–BandIndicatorGERAN (385)–CarrierFreqCDMA2000 (385)–CarrierFreqGERAN (385)–CellIndexList (387)–CellReselectionPriority (387)–CellSelectionInfoCE (387)–CellReselectionSubPriority (388)–CSFB-RegistrationParam1XRTT (388)–CellGlobalIdEUTRA (389)–CellGlobalIdUTRA (389)–CellGlobalIdGERAN (390)–CellGlobalIdCDMA2000 (390)–CellSelectionInfoNFreq (391)–CSG-Identity (391)–FreqBandIndicator (391)–MobilityControlInfo (391)–MobilityParametersCDMA2000 (1xRTT) (393)–MobilityStateParameters (394)–MultiBandInfoList (394)–NS-PmaxList (394)–PhysCellId (395)–PhysCellIdRange (395)–PhysCellIdRangeUTRA-FDDList (395)–PhysCellIdCDMA2000 (396)–PhysCellIdGERAN (396)–PhysCellIdUTRA-FDD (396)–PhysCellIdUTRA-TDD (396)–PLMN-Identity (397)–PLMN-IdentityList3 (397)–PreRegistrationInfoHRPD (397)–Q-QualMin (398)–Q-RxLevMin (398)–Q-OffsetRange (398)–Q-OffsetRangeInterRAT (399)–ReselectionThreshold (399)–ReselectionThresholdQ (399)–SCellIndex (399)–ServCellIndex (400)–SpeedStateScaleFactors (400)–SystemInfoListGERAN (400)–SystemTimeInfoCDMA2000 (401)–TrackingAreaCode (401)–T-Reselection (402)–T-ReselectionEUTRA-CE (402)6.3.5Measurement information elements (402)–AllowedMeasBandwidth (402)–CSI-RSRP-Range (402)–Hysteresis (402)–LocationInfo (403)–MBSFN-RSRQ-Range (403)–MeasConfig (404)–MeasDS-Config (405)–MeasGapConfig (406)–MeasId (407)–MeasIdToAddModList (407)–MeasObjectCDMA2000 (408)–MeasObjectEUTRA (408)–MeasObjectGERAN (412)–MeasObjectId (412)–MeasObjectToAddModList (412)–MeasObjectUTRA (413)–ReportConfigEUTRA (422)–ReportConfigId (425)–ReportConfigInterRAT (425)–ReportConfigToAddModList (428)–ReportInterval (429)–RSRP-Range (429)–RSRQ-Range (430)–RSRQ-Type (430)–RS-SINR-Range (430)–RSSI-Range-r13 (431)–TimeToTrigger (431)–UL-DelayConfig (431)–WLAN-CarrierInfo (431)–WLAN-RSSI-Range (432)–WLAN-Status (432)6.3.6Other information elements (433)–AbsoluteTimeInfo (433)–AreaConfiguration (433)–C-RNTI (433)–DedicatedInfoCDMA2000 (434)–DedicatedInfoNAS (434)–FilterCoefficient (434)–LoggingDuration (434)–LoggingInterval (435)–MeasSubframePattern (435)–MMEC (435)–NeighCellConfig (435)–OtherConfig (436)–RAND-CDMA2000 (1xRTT) (437)–RAT-Type (437)–ResumeIdentity (437)–RRC-TransactionIdentifier (438)–S-TMSI (438)–TraceReference (438)–UE-CapabilityRAT-ContainerList (438)–UE-EUTRA-Capability (439)–UE-RadioPagingInfo (469)–UE-TimersAndConstants (469)–VisitedCellInfoList (470)–WLAN-OffloadConfig (470)6.3.7MBMS information elements (472)–MBMS-NotificationConfig (472)–MBMS-ServiceList (473)–MBSFN-AreaId (473)–MBSFN-AreaInfoList (473)–MBSFN-SubframeConfig (474)–PMCH-InfoList (475)6.3.7a SC-PTM information elements (476)–SC-MTCH-InfoList (476)–SCPTM-NeighbourCellList (478)6.3.8Sidelink information elements (478)–SL-CommConfig (478)–SL-CommResourcePool (479)–SL-CP-Len (480)–SL-DiscConfig (481)–SL-DiscResourcePool (483)–SL-DiscTxPowerInfo (485)–SL-GapConfig (485)。

Hikvision DS-2TD6266-100C2L Thermal & Optical Bi-spectrum Network Positioning System is applied to frontier defense occasions, maritime defense occasions, port monitoring, airport perimeter security, and so on. The pre-alarm system helps you discover unexpected events immediately and protects you from property loss.Smart Function (Thermal Imaging)● Leading image processing technology: Adaptive AGC, DDE, 3D DNR, NETD < 40mk (@25°C, F#=1.0) ● Smart tracking: Panorama tracking, Event tracking and Multi-scene patrol tracking ● Smart tracking linkage: thermal view and optical view● Powerful behavior analysis algorithm: Line crossing, Intrusion, Region Entrance & Exit ● Reliable temperature exception alarm function ● Advanced fire detection algorithmThermal Imaging Module Function● 640*512 resolution, high sensitivity sensor, support contrast adjustment ● Support shutter adjustment in various modes●3D DNR, 15 palettes of color adjustable, image detail enhancementSpecificationsModel Parameter DS-2TD6266-100C2LThermal & Optical Bi-spectrum Network Positioning SystemThermal module Image sensor Vanadium Oxide Uncooled Focal Plane Arrays Max. Resolution 640 × 512Detector Pitch 17μmResponse waveband 8μm to 14μmNETD < 40mk(@25°C,F#=1.0)Lens (focal length) 100 mmMRAD 0.17 mradField of View 6.23° × 4.98°Min. Focusing Distance 10 mF number 1.0Optical camera Image sensor 1/2.8” Progressive Scan CMOSMin. Illumination Color : 0.05Lux @ (F1.8, AGC ON)B/W : 0.01Lux @ (F1.8, AGC ON)Focal Length 6.7-330mm, 49 XDigital Zoom 16 XField of View 41.3° - 1.2° (Wide-Tele)Min. Working Distance 10-1500mm(Wide-Tele)Aperture Range F1.8-F6.1Focus Mode Auto / Semiautomatic / ManualWDR DigitalShutter Time PAL: 1-1/30,000s / NTSC: 1-1/30,000sWhite Balance Auto / Manual /ATW/Indoor/Outdoor/Daylight lamp/Sodium lamp Day & Night IR Cut FilterPrivacy Mask 24 privacy masks programmable; optional multiple colors and mosaics Optical Defog YesEnhancement 3D DNRSmart function VCA Support 4 VCA rule types (Line Crossing, Intrusion, Region Entrance, and Region Exiting), 10 scenes and 8 VCA rules for each scene.TemperatureMeasurementSupport 3 temperature measurement rule types, over 256 presets as scene, 21 rules of each scene (10 points,10 regions, and 1 line)Temperature range -20 °C to 150 °C (-4 °C to 302 °F)Temperature accuracy ± 8 °C (14.4 °F)Fire detection Support 10 fire pointsPTZ Movement Range Pan: 360° Continuous Rotate; Tilt: From -90° to + 40° (auto flip)Pan Speed Configurable, From 0.1°/s to 110°/sTilt Speed Configurable, From 0.1°/s to 50°/sProportional Zoom YesPresets 300Patrol Scan 8; Up to 32 Presets Per PatrolPattern Scan 4; More Than 10 Minutes Per PatternPower Off Memory YesPark Preset/Pattern Scan/Patrol Scan/Auto Scan/Tilt Scan/Random Scan/Frame Scan/Panorama ScanPT Status Turn On/Turn OffScheduled Task Preset/Pattern Scan/Patrol Scan/Auto Scan/Tilt Scan/Random Scan/Frame Scan/Panorama Scan/Doom Reboot/Doom Adjust/Aux OutputInfrared IR Distance Up to 500m IR Intensity and Angle Auto AdjustNetwork Main Stream Optical: 50Hz:25fps(1920 × 1080), 25fps(1280 × 960), 25fps(1280 × 720) Optical: 60Hz:30fps(1920 ×1080), 30fps(1280 × 960), 30fps(1280 × 720) Thermal: 50fps (640 × 512)Sub stream Optical: 50Hz:25fps (704 × 576), 25fps (352 × 288), 25fps (176 × 144) Optical: 60Hz:30fps (704 × 480), 30fps (352 × 240), 30fps (176 × 120) Thermal: 50fps (640 × 512)Video compression H.264 (Baseline/Main/High Profile) /MJPEG/MPEG4Audio compression G .711u/G.711a/G.722.1/MP2L2/G.726/PCMProtocols IPv4/IPv6,HTTP,HTTPS,802.1x,Qos,FTP,SMTP,UPnP,SNMP,DNS,DDNS,NTP,RTSP,RTCP,RTP,TCP,U DP,IGMP,ICMP,DHCP, PPPoE, BonjourSimultaneous live view Up to 20-chUser/Host level Up to 32 users, 3 levels: Administrator, Operator, UserSecurity measures User authentication (ID and PW), MAC address binding, HTTPS encryption, IEEE 802.1x access control, IP address filteringIntegrati on Alarm Input Up to 7-ch Relay Input (0-5V DC)Alarm Output Up to 2-ch; Support Alarm LinkageAlarm Action Preset/Patrol Scan/Pattern Scan/SD Card Record/Relay Output/Smart capture/FTP upload/Email linkage Audio Input LINE_IN Input/MIC Input; Peak: From 2 to 2.4V[p-p]; Output Impedance: 1KΩ±10%Audio Output Linear Level; Impedance: 600ΩCommunication Interface Built-in RJ45; 10M/100M Ethernet InterfaceOnboard Storage Built-in Micro SD/SDHC/SDXC Card Slot, Up to 64GB; Support Manual/Alarm RecordingAnalog Video Output 1.0V [p-p]/75Ω, PAL/NTSC/BNCRS485 Half-Duplex; HIKVISION, PELCO-P and PELCO-D Self-adaptiveAPI Open-ended; Support ONVIF, ISAPI and CGI; Support HIKVISION SDK and Third-Party Management PlatformClient iVMS-4200Web Browser IE 7+, Chrome 18+, Firefox 5.0+, Safari 5.02+; Multiple LanguagesGeneral Menu EnglishWiper YesPower 24V AC, 120WWorkTemperature/Humidity From -40°C to 60°C (-40°F to 140°F); Humidity: 90% or LessProtection Level Open-ended API, support ISAPI; Support HIKVISION SDK and Third-party Management Platform Dimensions 486.1 mm × 351.6 mm × 450.3 mm (19.14" × 13.84" × 17.73")Weight Approx. 19kg (41.89lb)Wide Range Coverage for Different SpecificationsNote:The table below is only for reference, the performance varies from model to model, and the specific data is based on 17 μm detector pitch.Lens (focal length) 7mm 10mm 15mm 25mm 35mm 50mm 75mm 100 mm Detection range (Vehicles) 631m 902m 1353m 2255m 3157m 4510m 6765m 9020m Detection range (Humans) 206m 294m 441m 735m 1029m 1471m 2206m 2941m Recognition range (Vehicles) 158m 225m 338m 564m 789m 1127m 1691m 2255m Recognition range (Humans) 51m 74m 110m 184m 257m 368m 551m 735m Identification range(Vehicles) 79m 113m 169m 282m 395m 564m 846m 1127m Identification range (Humans) 26m 37m 55m 92m 129m 184m 276m 368m0503121070801Smart functions Range TableNote: The table below is only for reference, the performance varies from model to model, and the specific data is based on 17 μm detector pitch. Lens (focal length) 7mm 10mm 15mm 25mm 35mm 50mm 75mm 100 mm VCA range (humans) 50m 72m 110m 183m 255m 360m 540m 720m VCA range (Vehicles) 144m 205m 308m 514m 720m 1029m 1544m 2000m Temperature measurement (Object:2×2 m)164m 234m 351m 585m 819m 1170m 1775m 2340m Temperature measurement ((Object:1×1 m)83m118m 177m 295m 413m 590m 885m 1180m Fire Detection (Object:2×2 m) 412m 588m 882m 1470m 2058m 2940m 4410m 5880m Fire Detection (Object:1×1 m) 206m294m441m735m1029m1470m2205m2940mOrder ModelsDS-2TD6266-100C2LDimensionsφ608.8m (23.97″)351.6 mm (13.84″)486.1 mm 351.6 mm 450.3 mm (17.73″)。