蓝光工程量计算稿说明书

红蓝光治疗仪（1ED光谱治疗仪）主要技术参数及商务要求主要技术参数：★1.设备要求：五片弧型扇面治疗头、并可伸展2.工作电压：ΛC220V-240V,50Hz或60Hz±2%3.额定功率：500VAo4.输出波长：红光633nm±10nm；蓝光417nm±10nm；黄光590nm÷10nm；5.功率密度：红光≤200mW∕cm2±20%;蓝光≤120mW∕cm2±20%;黄光≤42mW∕cm2±20%;6.定时范围：0~99min连续可调7.照射强度：光源强度1-100%可调★8.有效辐照面积：≥850cm29.光源类型：集红蓝黄三光源于同一治疗头，多种波长可供选择，无须更换治疗头；★10.光源选择：三种光源（红光、蓝光、黄光）一体，任意光源可同时开启，可单开,亦可复合光；★11.采用大功率SMD矩阵光源，排列密度大，使辐照强度更高、光斑更均匀；12.显示方式：采用8”全触屏辅以人性化的GUI设计，可旋转的触摸屏设计，13.照射方式：具有连续照射或脉冲照射两种工作模式，满足临床不同需求；★14.具有剂量和时间两种工作模式，更加适合光动力治疗，精准治疗；15.配备辐照强度校准系统，实时监测光源强度及使用情况，确保精准治疗；16.温馨的语音提醒，提醒患者及医护人员治疗情况，为患者带来轻松舒适的治疗体验；17.预存治疗方案，一键选择，操作更加便捷；18.自由升降阻尼悬臂设计，充分考虑人体工程学要求，方便操作，使光源可以在任意位置角度停留最大程度满足各种临床治疗环境；配置要求序号名称数量单位1主机1台2护目镜3副3液晶屏1个4底座1个5治疗头1个商务要求一、合同签订期：成交通知书发出之日起7个工作日。

二、交货期：自合同签订之日起30个日（自然日）内安装且调试完成并验收合格。

逾期交付的，采购人有权拒绝验收并取消成交供应商资格，所造成的一切损失由成交供应商负责。

蓝光激光器使用说明书为了更好的使用本产品，使用前请先认真阅读本说明书，并将其妥善保存，以备将来之用地址Add：北京市朝阳区酒仙桥东路1号，电子称科技园M7栋东4层电话Tel：（+86）-010-********一、产品描述1.1产品描述:产品名称为二极管泵浦全固体激光器（DPSSL），波长为445nm，输出功率可根据客户需要自主进行调节，功率输出范围是（0mW-500mW）；交流电AC 输入范围是（90V-265V)，具体操作可参照手册说明进行操作。

1.2产品特点及应用：镭志威生产的激光器与其他同种产品来说，优势是体积小、效率高、功率稳定性好、光斑质量好、运输和使用方便、无污染。

目前在工业和科研领域的应用已包括材料处理、医疗诊断、仪器制造、基础研究、光存储、娱乐、图像记录、检测与控制、全色显示、测向与指示、国防军事等。

1.3安全注意1.3.1激光对人体和眼睛具有潜在危害，严禁用激光照射他人，尤其眼睛。

1.3.2不可将激光长时间照射到人体或易燃物体，以免因激光发热引起事故。

1.3.3调试过程中应在激光输出的光路上放置一块吸收性能良好的黑色金属材料作为光束终止器，防止引起火灾事故。

1.3.3工作场所无反射物(玻璃\镜子及金属物)并保证使激光射向安全的地方,所有现场人员佩戴激光防护眼镜。

1.3.4工作中的激光装置，假如不发出激光，也不要用眼睛探视光路。

1.4使用环境及要求1.4.1本产品应在干燥、清洁和无静电环境中使用，工作环境温度10~35℃,适宜工作环境温度20~30℃，避免高温、高湿和剧烈震动、冲击。

1.4.2必须保证激光头外壳温度与适宜工作温度相近后，才允许开启激光器，以免温差过大,影响激光器性能或损坏器件。

1.4.3搬动仪器时，请保持电源和激光头为一整体，不可提其中之一，而让另一部分处悬空状态。

警告：本产品属于4类激光设备，直接的强激光照射可以对人体皮肤产生严重伤害，特别是将使眼睛致盲，调试操作人员必须具备激光安全防护的常识，工作中必须佩戴针对445nm 波长的专用激光防护眼镜。

B l u e S c o p e B L6800BHandheld multi‐functional, multi‐technology test platform forEthernet, IP, SONET/SDH/PDH, OTN & Fibre ChannelKey BlueScope Benefits:∙Unmatchable market performance▪Test up to 32‐Mulistreams each with customizable traffic profiles.▪Powerful Packet Flooding. Flood nearly any field of a packet including MAC, VLAN, MPLS with Layer 3 & 4 payload options.▪Dual port Packet Capture and Analysis utilizing WireShark engine▪The most compact OTN tester on the market. Supports OTU‐1/2/1E/2E/1F/2F▪Unparalleled physical layer testing on all optical transport methods and line rates.∙Software license controlled features for upgrades or maintaining test standards as they are defined, then certified.▪Instant (DIY) remote/field upgradable; via a software only license key.▪Never lose a test capability/feature due to lost, forgotten, or damaged hardware modules.∙Linux Operating System▪Less susceptibility to viruses and malware. Known in the IT industry for being more stable than alternatives.Linux the OS choice for hand held testers and utilized in the Bluescope!BlueScope Highlights:∙Handheld test set hardware platform that supports both 1/10 GbE Ethernet, SONET/SDH/PDH, Fiber Channel, OTN, VOIP, IPTV, WLAN.∙Rapid Boot‐up∙Eight Hours battery stand time and approximate four hours of battery test time.∙Remote control through VNC and a CLI.∙Dual port operation enables performing two tests simultaneously∙Bluetooth support to easily offload test results or transfer test configurations.∙Customizable platform. Avoids technology obsolescence. Choose your ports, line rates and testing options you require now. Then invest in what you require. Bluescope is upgradeable for your future testing by you and can be fullyconfigured by you, whenever your test requirements, testing demands, financial position changes. Just add ports,features, and software options etc. in the future. Truly “pay as you grow” handheld test platform.Ethernet & IPBlueScope Ethernet Standard Features: ∙ Throughput Test (Single Stream)∙ Packet Filtering∙ IP Tools (Ping, DHCP, Trace Route)∙ In ‐Service Traffic Monitoring (Non ‐Intrusive Mode) ∙ MPLS (stacking up to 3 MPLSs) ∙ VLAN, Q ‐in ‐Q (up to 3 VLANs) ∙ Cable Diagnostics ∙ Remote Control via VNC ∙ Report Generation (PDF, CSV and TXT)BlueScope Ethernet SW Options:∙ (ET ‐1) Single 1GB port (ET ‐2) Dual 1GB port (ET ‐3) Single 10GB port(ET ‐4) Dual 1GB & Single 10GB port∙ (ET ‐5) Loopback Mode (L1‐L4, auto, filtered) ∙ (ET ‐6) Throughput multi ‐streams (4 streams)∙ (ET ‐7) RFC2544 (Network Equipment Benchmarking Test) ∙ (ET ‐8) Packet Capture and Decode via WireShark ∙ (ET ‐9) Throughput 32 multi ‐streams∙ (ET ‐10) Packet Flooding – Mac/VLAN/IP/User Defined Field ∙ (ET ‐11) L1/Unframed BERT (Cable BERT ‐RJ45, Unframed BERT ‐SFP Optic)∙ (ET ‐12) Network Discovery ∙ (ET ‐13) 100 FX/LX (Optic)BlueScope Ethernet SW Options:∙ (ET ‐14) Y.1564(EtherSAM)∙ (ET ‐15) PBB/PBB ‐TE(MAC ‐in ‐MAC) ∙ (ET ‐16) SyncE/1588 ∙ (ET ‐17) IPV6∙ (ET ‐18) EtherOAM Y.1731 (available early 2013) ∙ (ET ‐19) Asymmetric Testing (available early 2013)∙ (ET ‐20) One ‐Way Delay Measurement using 1588 or GPS (available early 2013)∙ (ET ‐21) Web Browser and HTTP Testing ∙ (ET ‐22) CLI Interface ∙ (WA ‐1) 10GbE WAN PHY∙ (WA ‐2) WLAN 802.11 a/b/g testing ∙ (PT ‐1) IPTV Quality Metrics∙ (PT ‐2) IPTV Decode (available early 2013) ∙ (VO ‐1) VoIP Quality Metrics∙ (VO ‐2) VoIP Signaling and Vocoding (available early 2013)Ethernet IP Applications∙Troubleshoots Ethernet/IP networks, captures and analyzes packets, and identifies network problems.∙Tests Carrier Ethernet transport to verify class of service (CoS), Triple‐Play Service, and Ethernet circuit transparency.∙Supports Packet Transport Network (PTN) testing with MPLS‐TP traffic generation and QoS analysis, along with simultaneous verification of OAM Label 13 or 14 operation.∙Confirms higher‐layer Ethernet data applications and services at 10Mbps to 1Gbps rates with Ipv4 and IPv6∙Tests Layer 1‐4 Ethernet/IP SLAs with RFC 2544 for up to 3 VLAN tags, Q‐in‐Q, and MPLS encapsulation.∙Verifies automatically SLA compliance according to Y.1564, including different traffic profiles per service, and KPI compliance for all committed services concurrently.Ethernet IP Testing LifecycleInstallation∙RFC2544, including frame delay variation, asymmetric rates, and concurrent results to reduce overall test time.∙Y.1564 EtherSAM automated SLA validation including bandwidth profiles and KPI compliance for quickly verifying multiple services.∙Carrier Ethernet testing with PBB, MPLS, MPLS‐TP, VLAN and Q‐in‐Q.Troubleshooting∙Line rate packet capture up to 10Gbps.∙Packet decodes with integrated WireSharkCarrier Ethernet Installation TestingFor years Ethernet/IP has been transported throughout carrier networks encapsulated in other data‐link layer technologies thatevolved into a carrier‐grade technology because of operations, administration, and maintenance (OAM) standards such as ITU‐Ty.1731, IEEE 802.1ag, and 802.3ah. Ethernet now possesses many of the characteristics that made SONET/SDH the transporttechnology of choice; end‐to‐end circuit transparency, redundancy, and full‐featured OAM for circuit‐based performancemanagement and alarming. The BlueScope delivers a much‐needed tool set for provisioning and troubleshooting Ethernet networksthat substantially improves installation and troubleshooting times, thereby granting error‐free operation and a significant reductionin operating expense.RFC2544 TestingThe BlueScope delivers all the Carrier Ethernet testing needed to qualify Ethernet‐based transport networks. RFC2544 is the defacto industry standard for Ethernet circuit installation. In addition to supporting Ethernet throughput or committed information rate (CIR), frame delay (FD) or latency, frame loss (FLR), and back‐to‐back burst testing as called out in the RFC, the BlueScope also tests forpacket jitter or frame delay variation (FDV) to ensure the circuit is ready to transport time‐sensitive services such as IPTV and VoIP.Using a pair of test sets and Asymmetric RFC testing, users can validate Ethernet Virtual Circuits (EVCs) with different upstream and downstream CIRs, or they can test sequentially in both directions to ensure that key performance indicators (KPIs) are met acrossany connection type.ITU‐T Y.1564 EtherSAM Service Activation TestingY.1564 EtherSAM allows for fast and easy verification of SLAs for differentiated services including validation of different bandwidthprofiles like committed information rate (CIR), extended information rate (EIR) and maximum bandwidth. Pass / Fail results for KPIs including CIR, frame delay (FD), frame delay variation (FDV or packet jitter) and frame loss rate (FLR) are provided independently forup to 16 services. Out of sequence frames and available seconds are reported per Y.1564.Verifying CoS with Multiple StreamsMulti‐stream testing generates several streams of traffic at the Ethernet, IP, and TCP/UDP layers (Layers 2‐4) to emulate various types of traffic with the appropriate CoS mappings so that users can assess the impact of traffic prioritization on the overall network architecture while confirming proper network element queuing, policing, and shaping. Up to 32 individually configured streams enable generation and analysis of per stream key parameters such as VLAN ID and priority, TOS/DSCP marking, packet size,source/destination IP and MAC address, and source/destination TCP/UDP ports. Users can configure constant or ramp traffic to simulate near real‐world traffic before actually delivering a service. This level of testing confirms the network design as well as drastically reduces post‐installation troubleshooting.BER and Latency TestingThe BlueScope supports optical Layer 1 (L1) BER testing for stress testing the underlying physical transport link. A standard 2^23 pattern is used to obtain key QoS measurements including bit error rates, pattern sync, latency, line coding, and signal/power levels.Ethernet OAM, VLAN, Q‐inQ, MPLS and PBB Tunneling TechnologiesEthernet tagging and encapsulation is commonly used to improve the scalability of Ethernet networks by isolating customer traffic and, in the case of provider backbone bridging (PBB), minimizing the number of MAC addresses that equipment must learn. Regardless of the encapsulation and tagging used, the BlueScope tests CoS to confirm KPIs such as CIR, FD, FDV, and FLR. Support for virtual local area network (VLAN) tags, Q‐in‐Q VLAN tags, PBB (also known as MAC‐in‐MAC) and multi‐protocol label switching (MPLS), the BlueScope allows testing at any part of the Metro network.Ethernet Timing Synchronization Verification using 1588v2 PTP and G.826x SyncECritical network timing and frequency synchronization testing enables service providers to analyze emerging 1588v2 PTP and Synchronous Ethernet (SyncE) protocols greatly reducing expenses for mobile backhaul and LTE by eliminating the need forTDM/GPS. Wireless backhaul providers can now verify whether Ethernet links can transfer PTP protocols by connecting to a PTP master and measuring critical packet parameters such as PDV with simultaneous network traffic loading. SyncE testing recovers the timing of an incoming Ethernet interface for the tester’s transmitter. Capturing and decoding the 1588v2 PTP and Ethernet Synchronization Messaging Channel (ESMC) messages allows operators to verify and troubleshoot proper configuration and operation of synchronization networks.Carrier Ethernet Fault IsolationIn the ever‐changing Ethernet and IP world providers must quickly, cost‐efficiently, and reliably troubleshoot problems at all layers of the stack. The BlueScope provides powerful line‐rate packet capture at Ethernet speeds up to 1GigE without dropping a single packet. When troubleshooting problems occur intermittently or inconsistently, it supports multiple traffic filters and triggers, including 16‐byte pattern identification, to isolate the exact problem and minimize the amount of information gathered.The BlueScope natively supports WireShark for on‐instrument packet decode. Additionally, users can save the captured traffic in a standard pcap file format and export it via USB or FTP through the management port for further analysis.SONET/SDH/PDHThe BlueScope 6800B performs BER testing on all line interfaces in end‐to‐end or loopback applications, inserts errors and alarms to verify NE conformance and connectivity, and measures BERs from DS1 (1.5M)/E1 (2.048M) rates to OC‐192/STM‐64.MappingsSONET/SDH mappings include all intermediate mappings down to VC‐4/VC‐3 in addition to BERT payload with multiple PRBS choices.SONET/SDH/PDH Overhead Byte Manipulation and AnalysisUsing the overhead byte manipulation and analysis capability, users can modify K1 and K2 bytes to test automatic protection switching (APS) to specify and identify user‐configurable path trace messages and payloads. The path overhead (POH) capture feature facilitates troubleshooting end‐to‐end problems. The Bluescope 6800B supports manual capture, capture on alarm, and capture based on user‐defined triggersPhysical Layer TestingPerform physical layer testing to verify dark fiber and line continuity across all optical transport methods and line rates. Support for unframed STM‐1/4/16/64, Fiber Channel 1x/2x/4x/10x, OTN OTU‐1/2/1E/2E/1F/2F, 1.250G(1GE), 10.313(10GE) and 3.1G (CPRI).Service Disruption measurementsThe Bluescope 6800B measures the protection switch times of SONET/SDH rings and their effects on tributaries. By measuring various error and alarm conditions on the tributaries, providers can verify that their transport network is providing adequate redundancy to guarantee SLAs.Multi‐Channel ViewDrill down to view the path hierarchy in its entirety on one screen with automatic detection of payload type (concatenated or non‐concatenated) for SONET ( 48x STS‐1 and 28x VT 2/1.5) and SDH (48x AU‐3 and 28x TU12/TU11).Line Through ModeConnecting the test unit in‐line provides not only monitoring capabilities but also the possibility of injecting errors. This provides for an effective tool in serice‐disruption testing.SDH/PDH Alarm/Error GenerationGenerate Alarms for:LOS, LOF, OOF,RS‐TIM, MS‐AIS, MS‐RDI, AU‐LOP, AU‐AIS, TU‐LOP, TU‐AIS, HP‐UNEQ, HP‐PLM, HP‐TIM, HP‐RDI,HP‐SRDI, HP‐CRDI, HP‐PRDI, HP‐TC‐UNEQ, HP‐TC‐LOMF, HP‐TC‐AIS, HP‐TC‐RDI, HP‐TC‐ODI, LP‐UNEQ, LP‐PLM, LP‐TIM, LP‐RFI, LP‐RDI, LP‐SRDI, LP‐CRDI, LP‐PRDI, LP‐TC‐UNEQ, LP‐TC‐LOMF, LP‐TC‐AIS, LP‐TC‐RDI, LP‐TC‐ODIGenerate Errors for:FAS, B1, B2,B3, MS‐REI, BIT,HP‐REI, HP‐TC‐IEC, HP‐TC‐REI, HP‐TC‐OEI, LP‐BIP, LP‐REI, LP‐TC‐IEC, LP‐TC‐REI, LP‐TC‐OEIBlueScope SONET/SDH Options:∙(SO‐1) OC‐3/12/48 (STM 1/4/16)(SO‐2) OC‐192 (STM‐64)(SO‐3) OC‐3/12/48/192 (STM 1/4/16/64)∙(SO‐4) Unframed Line Rate (Requires SO‐1,2 or 3)∙(SO‐5) Multi‐Channel View (Requires SO‐1, 2 or 3)∙(SO‐6) Signal Delay emulator (injection of signal delay in unframed line rates; Requires SO‐4)BlueScope PDH Options: ∙(PD‐1)E1/T1 (DS1)(PD‐2)E3/T3 (DS3)(PD‐3)E1/T1, E3/T3OTNOTN is the next generation network designed to combine and accelerate the benefits of SDH/SONET with the bandwidth expandability of DWDM (Dense wavelength division multiplexing).Test end‐to‐end connectivity by transmitting and receiving OTN signals with the ability to insert and analyze errors and alarms in network troubleshooting and equipment verification applications.TCM with Error/Alarm detectionVerify network element interoperability with the TCM bytes; Count, current rate and average rate for each error, SDT (Service disruption Time) measurements and RTD (Round Trip Delay) measurements. Verify OTN alarms and errors with injection capabilities such as loss of frame (LOF), alarm indication signal (AIS), and backward defect indication (BDI).FEC TestingTransmit and analyze correctable and uncorrectable FEC errors to verify a network element’s ability to correct conditions through the use of FEC enabled signals. Correctable and uncorrectable FEC error positions are accumulated and monitored through a graphical hierarchy window which allows users to easily recognize the position of the FEC error.Features programmable FEC error generation functions that allows the user to define a detailed position for correctable FEC errors and un‐correctable FEC errors.Line Through ModeConnecting the test unit in‐line provides not only monitoring capabilities but also the possibility of injecting errors. This provides for an effective tool in service‐disruption testing.BlueScope OTN Options:∙(OT‐1)OTU‐1 (2.66G/STM‐16)Requires SO‐1(OT‐2)OTU‐2 (10.7G/STM‐64)Requires SO‐2(OT‐3)OTU‐3 (2.66G & 10.7G / STM‐16 & STM‐64) Requires SO‐3(OT‐4)OTU‐4 (10G Ethernet over OTU‐2 [OUT‐1e/2e] available early 2013)Fibre ChannelThe BlueScope B6800B tests 1x, 2x, 4x and 10x Gbps Fibre Channel (FC). Users can manipulate various fields of the FC frames to emulate end customer traffic and perform BER measurements on L1 and L2 circuits. The BlueScope supports buffer crediting capability, which lets providers verify the effect of delay on the link throughput and test the ability of the link to obtain the optimum buffer credit values. The BlueScope also allows users to turn up storage area networks (SANs), producing reliable throughput, packet loss, RTD, and burstability results with consistent test methodology.BlueScope Fiber Channel Options:∙(FC‐1) Fiber Channel 1x/2x(FC‐2) Fiber Channel 4x(FC‐3)Fiber Channel 1x/2x/4x(FC‐4)Fiber Channel 10x (Available 2013)(FC‐5)Fiber Channel 1x/2x/4x/10x (10x Available 2013)Hardware Specifications:∙Ports:▪(2) SFPs (1000BASE‐SX/LX/ZX, 100‐FX/LX/SX)▪(2) 10/100/1000Base‐T (RJ45)▪(1) XFP▪(1) BNC connectors (Tx/Rx) 34‐45M▪(1) Bantam(Tx/Rx) : 1.5M ‐ 2M▪(1) SMA(Tx) : Tx Reference Clock Out▪(1) SMA: External clock input 1.544 ‐2.048 Mbps / 1.544m, 2.048 m, 10M / Any clock speed▪(1) GPS Signal input▪(1) HDMI output▪(1) 3.5mm headset audio jack and mic support.∙Port Configuration:▪BL6800‐01 (1Gb‐Single Port), BL6800‐02 (1Gb‐Dual Port), BL6800‐12 (10Gb‐Single Port, 1Gb‐Dual Port)▪BL6800‐01P (including PDH), BL6800‐02P (including PDH), BL6800‐12P (including PDH) ∙Dimensions:▪Size: 172.5 (W) x 227 (H) x 58.5 (D) mm▪Weight: 1.3 kg with Battery, Battery (0.3 kg)∙Operating Temp: 0Ԩ~40Ԩ∙Storage Temp: ‐20Ԩ~ +70Ԩ∙Display: 5.7 Color TFT‐LCD Touch Screen∙User Interface: Touch Screen & Keypad∙Humidity: 10% ~ 90%∙Power:▪AC adaptor: 100V~240 V(50Hz/60Hz)▪Removable/Rechargeable lithium ‐Ion Battery▪Battery life: 3 hours typical, 8 hour in standby mode▪Charging time: 1 ~ 2 hours∙Memory:▪16GByte internal Flash memory includedContact Information:Web: US & Canada:Support: ************************Tel: +1 408 841 9689Sales: **********************Fax: +1 408 841 9607。

DESCRIPTIONSThe Green source color devices are made with InGaN on Sapphire Light Emitting DiodeElectrostatic discharge and power surge could damage the LEDsIt is recommended to use a wrist band oranti-electrostatic glove when handling the LEDs All devices, equipments and machineries must be electrically groundedFEATURES3.2 mm x 1.6 mm SMD LED, 0.75 mm thickness Low power consumption Wide viewing angleIdeal for backlight and indicator Package: 2000 pcs / reel Moisture sensitivity level: 3 RoHS compliantAPPLICATIONSBacklightStatus indicatorHome and smart appliances Wearable and portable devicesHealthcare applicationsATTENTIONObserve precautions for handlingelectrostatic discharge sensitive devicesPACKAGE DIMENSIONSAPT3216LZGCK3.2 mm x 1.6 mm SMD Chip LED LampRECOMMENDED SOLDERING PATTERN(units : mm; tolerance : ± 0.1)Part NumberEmitting Color (Material)Lens TypeIv (mcd) @ 2mA [2]Viewing Angle [1]Min.Typ.2θ1/2 APT3216LZGCK■ Green (InGaN)Water Clear 50 100150°SELECTION GUIDENotes:1. θ1/2 is the angle from optical centerline where the luminous intensity is 1/2 of the optical peak value.2. Luminous intensity / luminous flux: +/-15%.3. Luminous intensity value is traceable to CIE127-2007 standards.Notes:1. All dimensions are in millimeters (inches).2. Tolerance is ±0.2(0.008") unless otherwise noted.3. The specifications, characteristics and technical data described in the datasheet are subject to change without prior notice.4. The device has a single mounting surface. The device must be mounted according to the specifications.ABSOLUTE MAXIMUM RATINGS at T A =25°CELECTRICAL / OPTICAL CHARACTERISTICS at T A =25°CNotes:1. The dominant wavelength (λd) above is the setup value of the sorting machine. (Tolerance λd : ±1nm. )2. Forward voltage: ±0.1V.3. Wavelength value is traceable to CIE127-2007 standards.4. Excess driving current and / or operating temperature higher than recommended conditions may result in severe light degradation or premature failure.Notes:1. 1/10 Duty Cycle, 0.1ms Pulse Width.2. Relative humidity levels maintained between 40% and 60% in production area are recommended to avoid the build-up of static electricity – Ref JEDEC/JESD625-A and JEDEC/J-STD-033.ParameterSymbolEmitting ColorValueUnitMin. Typ. Max. Wavelength at Peak Emission I F = 2mA λpeak Green - 515 - nm Dominant Wavelength I F = 2mA λdom [1] Green -525-nmSpectral Bandwidth at 50% Φ REL MAX I F = 2mA ΔλGreen- 35 - nmCapacitanceC Green - 45 - pFForward Voltage I F = 2mA V F [2]Green 2.2 2.65 3 VReverse Current (V R = 5V) I R Green - - 50 uAParameterSymbolValueUnitPower Dissipation P D 102.5 mW Reverse Voltage V R 5 V Junction Temperature T j 115 °C Operating Temperature T op -40 to +85 °C Storage Temperature T stg -40 to +85°C DC Forward Current I F 25 mA Peak Forward CurrentI FM [1]150 mA Electrostatic Discharge Threshold (HBM)-450VTECHNICAL DATAGREENTAPE SPECIFICATIONS (units : mm)REEL DIMENSION (units : mm)REFLOW SOLDERING PROFILE for LEAD-FREE SMD PROCESSNotes:1. Don't cause stress to the LEDs while it is exposed to high temperature.2. The maximum number of reflow soldering passes is 2 times.3. Reflow soldering is recommended. Other soldering methods are not recommended as they mightcause damage to the product.PACKING & LABEL SPECIFICATIONSPRECAUTIONARY NOTES1. The information included in this document reflects representative usage scenarios and is intended for technical reference only.2. The part number, type, and specifications mentioned in this document are subject to future change and improvement without notice. Before production usage customer should refer tothe latest datasheet for the updated specifications.3. When using the products referenced in this document, please make sure the product is being operated within the environmental and electrical limits specified in the datasheet. Ifcustomer usage exceeds the specified limits, Kingbright will not be responsible for any subsequent issues.4. The information in this document applies to typical usage in consumer electronics applications. If customer's application has special reliability requirements or have life-threateningliabilities, such as automotive or medical usage, please consult with Kingbright representative for further assistance.5. The contents and information of this document may not be reproduced or re-transmitted without permission by Kingbright.6. All design applications should refer to Kingbright application notes available at /ApplicationNotes。

PCE-LED 20PCE Americas Inc.711 Commerce WaySuite 8JupiterFL-33458USAFrom outside US: +1Tel: (561) 320-9162Fax: (561) 320-9176*********************/englishPCE Instruments UK Ltd.Unit 11Southpoint Business Park Ensign way Hampshire / Southampton United Kingdom, SO31 4RF From outside UK: +44Tel: (0) 2380 98703 0Fax: (0) 2380 98703 9 info@pce-instrument s.co .uk.....c:;:::::::==::::;•111• -U·i!Mdlii&#%JIMi·l'fü•1.DescriptionMeasures light from visible luminaries equipped with white light LED, fluorescent,metal halide, high-pressure sodium and incandescent sources.2.Safety Precaution&•Da not operate the meter under the environment with explosive gas (material),combustible gas (material) steam or filled with dust.•In order to avoid reading incorrect data , please replace the battery immediatelywhen the symbol "l(ill1 "appears an the LCD.•In order to avoid the damage caused by contamination or static electricity, danot tauch the circuit board before you take any adequate action .•Operating Environment: lndoors use, This instrument has been designed forbeing used in an environment of pollution degree 2.•Operation Altitude : Up to 2000 M.•Operating Temperature & Humidity: 5°C-40°C,0%-70%RH.•Storage Temperature & Humidity :-10 • C-60 • C,0%-70%RH.•EMC:EN61326-1 (2006) . IEC61000-4-2(2006).IEC61000-4-3(2006) +(2007).3.PrefaceThe flux of light received in a unit area of a certain side b eing s hown is popularlyknown as illumination . The measuring unit in both United Kingdom and Americais known as footcandles light ,but in Europe it is also known as meter candlelight.One foot-candles light is the illumination of light that falls an one side which isone foot away from a one foot-candlelight and exactly intersecting with the light .lts abbreviated form is written as 1 Fe= 1 Lm/ft, similarly, one-meter candlelightis the illumination of light that falls an a side which is one meter away from a onemeter candlelight and exactly intersecting the light. lt is also called Lux i, e. theflux of light being received in each sq. meter is called the i llumination of one lumen.1FC=10.764 LUX, 1LUX= 0.09290 FC,-.....c:;:::::::==::::;•111• -U·i!Mdlii&#%JIMi·l'fü•5.SpecificationsDisplay 4000 count, maximum display 3999Sensor Silicon photodiode with filterMeasuring Range 40, 400, 4000,40000, 400000 Lux40, 400, 4000, 40000 FootcandlesAccuracy ±3% (Calibrated to standard lncandescentlamp 2856°K and Corrected LED day whilelight Spectrum)6% other visible light sourceAngle deviation from cosine 30 ° ±2%characteristics 60 ° ±6%80 ° ±25%Power SupplyBattery lifeDimensionsWeightAccessoriesLength of wring for light sensor : Approx. 1.5M6.Operation1.Press the "8" button to turn power on or off.2. Remove sensor cap and place the sensor perpendicular to the light.3. Select LUX or FC.4. lf you want to keep th e reading value on the LCD screen permanently alter te sting,Press the "0" button.5. When done testing, replace the sensor cover to protect the filter and sensor.•Data HoldFreezes the reading present on the LCD screen at th e moment the button is pressed•ZEROPress the" e " button for the zero adjustment tt any digits appear on the LCDscreen, when the light sensor cap is not attached "GAP" will be shown on the。

HLMP-CB36-QT000HLMP-CB11-TW000Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue, green, and cyan LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB36-RSBxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2B: Color Bin 2 and 3C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAPower Dissipation116mWLED Junction Temperature130°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CSolder Dipping Temperature[2]260 for 5 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.2 3.85 3.3 3.85 3.2 3.85V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505508nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.Figure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.000.80.60.40.2I F M A X . – M A X I M U M F O R W A R D C U R R E N T – m AT A – AMBIENT TEMPERATURE – °C03510503.030252015 2.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N TW A V E L E N G T H1.0351.0251.0300.9901.0151.0201.0101.0051.0000.99501.60.2R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )DC FORWARD CURRENT – mA515301.21025201.40.41.00.80.6Figure 6. Spatial radiation pattern for Cx11 and Cx12.Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.N O R M A L I Z E D I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090N O R M A L I Z E D I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090N O R M A L I Z E D I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2005 Agilent Technologies, Inc. Obsoletes 5989-1022ENJune 15, 20055989-3337ENHLMP-CB36-QT000HLMP-CB11-TW000。

蓝光表格算量软件使用手册目录前言第一章软件的安装、卸载1.1软件的运行环境1.2软件的安装1.3软件的卸载第二章软件购买2.1软件购买第三章软件入门操作3.1文件操作3.2编辑操作3.3表达式录入详解3.4软件常用工具使用3.5定额数据维护3.6系统设置第四章软件高级操作技巧4.1符号栏使用4.2软件内置函数4.3变量求和规则4.4汇总求和详细应用4.5综合技巧4.6在线升级4.7常用快捷键前言蓝光表格算量软件主要用于辅助安装工程概预结算人员完成项目工程量的汇总计算。

完全模拟手工计算底稿,计算速度比手工计算快1/3，避免了手工计算容易漏算的弊端，核对后修改计算底稿比手工重新计算快95%，打印的底稿非常清晰，易于核对和找出差错。

不需要高深的电脑操作，软件就能带您进入一种全新工作的感受，使您的工作更方便、高效。

1：本软件为纯绿色软件，只需一个"TabCalc.exe"文件就可以使用，不需要安装任何其他第三引擎，DLL，等注册文件。

2：软件提供最多的数学函数，分别为： sin(D)、cos(D)、tan(D)、ctg(D)、sec(D) Cosec(D)、arcsin(D)、arccos(D)、arctan(D)、arcctg(D)、sinh(D)、cosh(D) tanh(D)、coth(D)、sech(D)、abs(B)、exp(B)、ln(B)、sqrt(B) 、Power(x,y)、B^2、A^0.5、PI等等。

3：多种方式进行变量求和，如：sum(x),sum(a1:10),sum(a),sumj(a),sumja(x)，SUB，SUJ等。

4：内存中采用垃圾回收技术，让软件耗用更少系统内存，运行更流畅。

5：提供：全国各地的安装定额库。

6：强大的定额模糊查找功能，让你从此摆脱找定额难的问题。

7：项目名称和计算公式自动换行显示，给你最大视觉体验。

8：提供工程常用特殊符号插入功能。

蓝光工程量计算稿技术报告一、引言随着科技的不断发展，蓝光技术作为一种先进的数据存储技术，在各个领域得到了广泛应用。

蓝光工程量计算稿是蓝光技术应用中的一个重要环节，对于保证蓝光光盘的质量和生产效率具有重要意义。

本文将介绍蓝光工程量计算稿的技术报告，包括其背景、目的、方法、结果和结论。

二、背景随着信息技术的不断发展，数据存储需求不断增加。

传统的数据存储方式已经无法满足现代社会的需求，因此需要一种更加高效、稳定、可靠的数据存储技术。

蓝光技术作为一种先进的数据存储技术，具有存储容量大、存储时间长、稳定性好等优点，因此在各个领域得到了广泛应用。

三、目的本文的目的是对蓝光工程量计算稿进行详细的技术分析，包括其原理、方法、实现过程等，为相关领域的研究和实践提供参考。

四、方法1.原理分析蓝光技术是一种基于光学原理的数据存储技术，其核心原理是将数据存储在光盘上的微型坑点中。

通过控制激光束的聚焦和强度，可以实现对坑点的精确控制，从而实现数据的写入和读取。

2.方法介绍蓝光工程量计算稿是蓝光技术应用中的一个重要环节，其主要任务是计算光盘上坑点的数量和分布情况。

具体来说，需要通过对光盘进行扫描，获取坑点的位置和大小信息，然后根据这些信息计算出坑点的数量和分布情况。

3.实现过程实现蓝光工程量计算稿的过程可以分为以下几个步骤：（1）扫描光盘：使用激光扫描仪对光盘进行扫描，获取坑点的位置和大小信息。

（2）数据预处理：对获取的数据进行预处理，包括去除噪声、平滑处理等。

（3）坑点识别：根据预处理后的数据，识别出光盘上的坑点。

（4）工程量计算：根据识别出的坑点数量和分布情况，计算出光盘的工程量。

五、结果通过以上方法，我们成功实现了蓝光工程量计算稿。

具体来说，我们通过对光盘进行扫描和预处理，识别出了光盘上的坑点，并计算出了光盘的工程量。

实验结果表明，我们的方法具有较高的准确性和稳定性，可以满足实际应用的需求。

六、结论本文通过对蓝光工程量计算稿进行详细的技术分析，得出了以下结论：1.蓝光技术作为一种先进的数据存储技术，具有广泛的应用前景。

目录一、系统结构 (2)二、系统功能 (3)三、软件使用 (3)1、软件组成 (3)2、软件启动 (4)3、控制柜检测 (4)4、控制柜功能检测 (8)5、操纵盘检测 (13)6、呼梯盒检测 (16)7、检测记录的查询及打印 (18)四、错误处理 (23)一、系统结构扬声器液晶显示屏触摸式鼠标接线端子图1检测台外形我公司为配合B l-2000电梯电脑板系列产品的使用，开发研制了用于电梯控制柜、操纵盘、呼梯盒检测的“‘B L-J’型全自动电梯控制柜检测系统”，该系统可对使用Bl-2000系列产品的控制柜、操纵盘、呼梯盒进行线路和功能的自动检测，智能化程度高，使用方便，为电梯的生产和检测带来极大的便利。

该系统为台式结构（如图1），液晶显示。

检测台按出线方式分为接插件出线方式和端子出线方式两种，表1为接插件方式检测台检测控制柜时的连接，图2为接插件方式检测台检测呼梯盒和操纵盘的连接，具体连线方法以及端子出线方式检测台检测时的连接情况可参考附图1、附图2、附图3。

编码器连线及计算机与检测台主板、B L-2000主板通讯线的连接见图3。

表1控制柜侧检测台侧GC-1G C-1GC-2G C-2GC-3G C-3GC-4G C-4GC-7 G C-7检测控制柜时接插件连接图 2 检测操纵盘和呼梯盒的接插件连接图 3 编码器和串口通讯线的连接二、系统功能该系统主要包括如下的功能：a、对控制柜的元件进行物理接线检测。

b、对控制柜的功能进行自动检测。

c、对操纵盘进行独立检测。

d、对呼梯盒进行独立的检测。

e、保存检测记录，提供报表。

三、软件使用3．1软件组成检测系统软件主要分四大部分：·控制柜检测·控制柜功能检测·操纵盘检测·呼梯盒检测3．2软件启动在开始→程序→电梯自动检测系统下启动软件。

3．3控制柜检测控制柜检测主要进行对控制柜物理连线等是否正确的检测，包括自动检测和检修走车检测，其中自动检测包括26个检测项目。

NOTICE本手册所有提及之商标与名称皆属上海嘉慧所有。

本手册解释权归属于上海嘉慧。

TrademarksAll trademarks mentioned in this manual are registered property of Joinwit.ExplanationThe content of this manual is subject to Joinwit’s explanation.目录1、概述--------------------------------------------------12、技术指标----------------------------------------------23、标准配置----------------------------------------------34、功能说明----------------------------------------------45、使用说明----------------------------------------------66、维护及保养--------------------------------------------97、质量保证----------------------------------------------101、概述双通道台式光功率计是嘉慧公司开发设计的高精度、宽量程光功率检测设备。

智能化微处理器控制，具有量程自动切换，对光探测器PIN 管在整个量程范围内，进行了分8段的线性化处理，消除了PIN管在同一波长、不同功率下，对光功率的非线性响应带来的误差，极大地提高了设备检测的准确性和可靠性。

除了具有传统光功率计的功能外，仪表还采用了新的数据采集技术，使得该功率计具有更大的信噪比、更大的动态范围。

在小信号时，内部电路采用小电阻加屏避技术，使得仪表具有更高的灵敏度，功率显示值+5～-75dBm。

蓝光工程量计算稿使用手册目录前言第一章软件的安装、卸载1.1软件的运行环境1.2软件的安装1.3软件的卸载第二章软件购买与注册2.1软件购买2.2软件注册2.3定额库注册第三章软件入门操作3.1文件操作3.2编辑操作3.3表达式录入详解3.4软件常用工具使用3.5工程变量明细3.6自定义变量3.7定额数据维护3.8系统设置第四章软件高级操作技巧4.1符号栏使用4.2软件内置函数4.3自定义常用函数4.4变量求和规则4.5汇总求和详细应用4.6综合技巧4.7构件算量4.8在线升级4.9常用快捷键第五章软件更新记录前言蓝光工程量计算主要用于辅助建筑概预结算人员完成项目工程量的计算。

完全模拟手工计算底稿，独具匠心的汇总,套定额等功能。

计算速度比手工计算快1/3，避免了手工计算容易漏算的弊端，核对后修改计算底稿比手工重新计算快95%，打印的底稿非常清晰，易于核对和找出差错。

不需要高深的电脑操作，软件就能带您进入一种全新工作的感受，使您的工作更方便、高效。

本软件是国内目前功能最强大，最人性化，最美观的工程量计算稿，相信你的选择不会错。

1：本软件为纯绿色软件，只需一个"EQtyCalc.exe"文件就可以使用，不需要安装任何其他第三引擎，DLL，等注册文件。

2：软件提供最多的数学函数，分别为： sin(D)、cos(D)、tan(D)、ctg(D)、sec(D) Cosec(D)、arcsin(D)、arccos(D)、arctan(D)、arcctg(D)、sinh(D)、cosh(D) tanh(D)、coth(D)、sech(D)、abs(B)、exp(B)、ln(B)、sqrt(B) 、Power(x,y)、B^2、A^0.5、PI等等。

3：多种方式进行变量求和，如：sum(x),sum(a1:10),sum(a),sumj(a),sumja(x)。

4：内存中采用垃圾回收技术，让软件耗用更少系统内存，运行更流畅。

加密锁检测不到蓝光工程量计算稿一、概述随着信息技术的发展，网络安全问题越来越受到人们的关注。

而在网络安全中，加密锁的作用不可忽视。

加密锁是一种用于保护软件知识产权和保障软件安全的重要设备。

而蓝光技术则是一种用于数据传输和存储的高清晰度技术。

本文将讨论加密锁检测不到蓝光工程的量计算问题，并提出解决方案。

二、加密锁检测不到蓝光工程的问题分析1. 问题描述在某些情况下，加密锁可能无法检测到蓝光设备，导致无法正常使用加密锁进行数据传输和存储。

这一问题在一些特定的硬件和软件环境中尤为突出。

2. 问题原因加密锁检测不到蓝光工程的问题可能是由以下原因造成：- 蓝光设备驱动程序不兼容- 系统或软件出现错误- 加密锁硬件故障3. 问题影响加密锁检测不到蓝光工程的问题将直接影响到数据传输和存储的安全性和稳定性，降低信息系统的可靠性和稳定性。

三、解决方案针对加密锁检测不到蓝光工程的问题，我们可以采取以下解决方案：1. 更新蓝光设备驱动程序，保证其与加密锁的兼容性2. 对系统和软件进行全面的检测，及时修复错误3. 定期对加密锁进行硬件检测，确保其正常工作四、工程量计算在解决加密锁检测不到蓝光工程的问题时，我们需要进行工程量的计算，以保证所需资源的合理配置和预算的科学编制。

1. 人力资源在解决加密锁检测不到蓝光工程的过程中，需要投入一定的人力资源。

需要划分各个岗位的职责，确定所需人员的数量和工作时间。

2. 物力资源解决加密锁检测不到蓝光工程可能需要购物或更新软硬件设备，需要对所需的物力资源进行合理的估算和预算。

3. 财力资源对解决加密锁检测不到蓝光工程的费用进行详细的预算，包括人力资源的费用、物力资源的购置费用以及其他可能产生的费用。

五、结论加密锁检测不到蓝光工程的问题对信息系统的稳定性和可靠性造成了直接的影响。

需要采取有效的解决方案，并进行合理的工程量计算，以保证问题能够得到及时解决并合理利用资源。

相信通过我们的努力，加密锁检测不到蓝光工程的问题一定能够得到圆满解决。

We send you attached video and will explain how it works.Video Link:/v_show/id_XNDk1MzI4MjA4.htmlFrist,Turn on the machine and select Lauage option:English,Chinese and etc. Second,enter in the main interface like this:the M1 M2 M3 is to adjust the flash timesM1 is 2 times flash/minutes , M2 is 3 times/minutes M3 is 5 times/minutes when we adjust the button in the "PULSE" then choose the 3 modeswhen we adjust it to the continious we do not need to adjust the M1 M2 M3 "ENERGY" when we click this, then choose the number then choose "+ or -" so we can change the eneregy for every light.The number 1 2 3 4 5 6 1 2 3 4. it controlled all the 12 lipo light.And how to put all the laser pads on body?Pls use the bandage on your body and insert the pads in the bandage.Like this picture:We suggest that 20-25 mins/Each time of treatment and 2-3 times/Week.1.What is the pulse for?In the picture named screen.jpg,it mentioned that the pulse means that the light will be flashed and will not work continously.And when you choose the pulse button,then you will have three options for mode.And the M1 M2 M3 is to adjust the flash times.M1 is 2 seconds flash, M2 is 4seconds flash, M3 is 6 seconds flash.2.When do I use pulse?The choose pulse or continous mode,it might be determined by your reference. Some people need stronger treatment,then he will use continous mode.And sometimes,the exchange between continous and pulse will have better results.3.When do I turn up the energy?This might be determined by different person.Some skin can stand higher heat.Some are not.So just listen to your client about their confortableness.When he say that he need higher intensity for better results,you can try to increase it slowly from low to high grandually.Lipo Laser Fat SystemUser manualWarningDear user :Thanks for using our company's products, in order to fully make use of the products, we sincerely suggests follow:◆◆Please read the instruction in detail and keep it well for further reading and consulting.◆◆Please follow the instruction to fit and operate the machine correctly.◆◆Please do not remove and change any accessories of the machine.◆◆It forbids others to open and remove the mainframe except the authorized people in the company.◆◆It forbids others to change and maintain the machine except the professional people.◆◆Please contact us if there is any trouble during operation. This product does not belong to medical, please don’t use for disease treatme nt !Work TherapyLLLT(Low Level Laser Therapy) has been used for many years, low level laser emits low level laser energy lipo laser treatment is completely noninvasive, safe, have no side effect for fat lossIt penetrate into skin surface and stimulates the fat cell membranes, changing their permeability, the fat cells reduce their overall size and intracellular fat is released then the fatty trigly cerides flow out of the disrupted cell membranes and into the interstitial space, where they gradually pass through the body\'s natural metabolic functions with no harmful physiological effects, this process is resulting in inch loss of patientsFeatures1 Pain free, no surgery and have no side effect2 Complete safely and efficiently3 Non-invasive, fat reduction and body shaping4 Cold low laserTreatment procedure1 Cleanse the skin, Put the Lipolaser probe to body where you want lost fat. then usea belt keep the pad to body.2 You relax in a comfortable position while a trained Lipo Laser technician places two multi-laser paddles and two smaller lasers to the target areas. Then lay back, relax, read, or whatever you like.Comparation Before and afterFAQ1.Is LipoLaser Safe?-Yes, Lipolaser treatments are completely non-invasive and clients feel nothing. Lipo Laser，low level laser technology has been studied and used for over 30 years for many biomedical purposes. CE approval for pain and inflammation, doctors can use it for fat loss .2.Do I have to do other things to lose the fat?-Only for bigger results - 1 inches without changes, 5inches with major lifestyle changes, like diet and exercise we have support if you choose to change your life while doing the sessions3.What do you do to keep the fat off?-Normal things you need to keep weight off diet and exercise, drinking water, etc. 4.Where Does the Fat Go?-That fat can be burned as energy in the body, or normal metabolic processing just like when you exercise and release fat5.How Quickly Will I See Results-Many clients see measureable results after their first session.6.What Kind of Results are Produced?-1-5 inches average-the most lost in 9 sessions is 23 inches.People who make minor lifestyle changes, are on the higher end of the average, and those who dont, the lower end.7.How many times do I need it ?-3times per week, 9times per course of treatment.8.Forbidden group-1.People with heart disease or high blood pressure, or configured cardiac pacemaker.2.Patients with acute inflammation, asthma, deep vein thrombosis, thyroncus, cancer.3.People with hemorrhagic disease, trauma or who is bleeding.4.Pregnant women5.Medical Plastic parts, or parts with artificial in filling inside.6.People with metal inside the body(include metallic tooth)7.Patient with skin inflammation or with edema.8.People with an abnormal immune system.9.Numb or insensitive to heat.Technical ParametersLaser wave length: Laser diode AIGalnp 635-650nmMaxinum output power:52Wintensity:3.0W/CM2(Belly),3.6W/CM2(Thigh),2.4W/CM2(Arm),1.5W/CM2(Face)N.W:8KgG.W:12KgDimension of the machine:37x31x21cmDimension with packing:57x51x36cmPacking Include6xBig paddle with 8 led diode laser//Each (Total 48 Diode laser)4xSmall paddle with 1 led diode laser//Each (Total 4 Diode laser)1xMetal holder for diode paddles1xPower line(We offer 100-240V,AU/EU/UK/AU plug)。

声明欢迎使用中科蓝光产品，在使用产品之前，请首先阅读本使用手册。

本手册适用于蓝光变量卡-金刚版版本。

本手册由武汉中科蓝光科技开发有限公司制作。

未经中科蓝光许可，不得为任何目的而使用任何形式的复制或传播本手册的任何部分。

武汉中科蓝光科技开发有限公司有权更改本手册的内容，如手册内容与实际产品不符，以实际产品为准，恕不另行通知！中科蓝光对于产品、应用程序、版权和其中涵盖的其他知识产权拥有专利，若无中科蓝光的书面授权，不得擅用。

本手册中所提到的某些产品名称仅作识别之用，这些名称可能属于其它公司的注册商标或版权！2目 录使用手册阅读导航 (4)第一章 产品介绍 (5)1、产品说明 (5)2、产品规格 (5)3、产品特色 (6)4、系统需求 (7)5、硬件安装 (7)6、安装流程图 (8)第二章 在单机或网络中的第一台计算机上进行安装 (9)1、在本机已经安装操作系统情况下的安装步骤 (11)2、在本机无操作系统或需要安装多操作系统时的安装 (11)3、在操作系统中安装驱动程序 (16)4、系统的优化 (18)第三章 网络安装与网络拷贝 (19)1、进入网络拷贝 (20)2、进入接收端 (21)3、设置占位机 (21)4、分组 (22)5、发送数据、命令和修改IP (23)5、断点续传 (28)第四章 设 置 (29)1、密码设定 (30)2、参数设定 (31)3、分区信息 (34)4、网络拷贝 (34)5、重新分区 (35)36、版本升级 (35)7、移除 (36)8、关于 (37)9.计费扩展 (38)第五章 变量拷贝 (39)1、首先根据需要在一台机器上进行操作 (40)2、进入发射端 (40)3、部分变量和全部变量 (41)4、变量拷贝 (42)附录一、LINUX 安装指南 (42)附录二、常见问题解答 (46)使用手册阅读导航欢迎使用中科蓝光产品，在使用产品之前，请首先阅读本使用手册。

根据您的具体需要和实际情况，您可以按照不同的方式来阅读本手册。

目录第一章工程概况 (1)1.1 工程概况 (1)第二章施工说明 (2)2.1施工说明 (2)2.1.1．一般规定 (2)2.1.2风道 (2)2.1.3水管道 (3)2.1.4油漆、保温 (4)第三章编制说明 (6)第四章工程量计算 (7)4.1水管工程量计算 (7)4.2 风管工程量计算 (7)4.3设备阀门部件统计 (10)4.4管道保温计算 (11)第五章工程预算表 (13)第六章主材费 (18)第七章措施项目费 (20)第八章工程造价计算 (21)参考资料 (22)第一章工程概况1.1 工程概况该项目为一办公组团，由11栋建筑围合而成。

每栋办公楼均为五层建筑，全部设计有通风空调系统。

空调方式为风机盘管加独立新风系统。

空调冷源为地源热泵机组，由能源站统一供给。

本次课程设计不包括能源站系统、消防排烟系统，地下车库通风系统。

施工图目录：设计说明，施工说明，设备材料表，一层空调水管平面图，二层空调水管平面图，三层空调水管平面图，四层空调水管平面图，五层空调水管平面图，空调水系统图，一层空调风平面图，二层空调风平面图，三层空调风平面图，四层空调风平面图，五层空调风平面图。

第二章施工说明2.1施工说明2.1.1．一般规定空调通风工程的施工验收应按本说明进行,说明中未详之处均应遵照国家标准执行。

2.1.2风道2.1.2.1管材、制作、安装：空调送回风管、新风管采用玻纤复合消声风管（外表面为SGI88进口超强防潮防腐金属化聚丙烯贴面,内表面贴玻纤毡,防火性能A级不燃），厚度25mm,密度75kg/m3 ,导热系数应不大于0.033W/（M·K）,降噪系数0.75。

复合风管的连接采用承插式连接,并采用12mm外扒钉进行固定和专用进口UL181认证的压敏或热敏胶带粘接密封.风管与风管附件的连接采用承插式连接,风管附件采用承插式连接方式. 地下室通风、排烟的风管采用氯氧镁无机玻璃钢制作,厚度按有关标准确定. 其他通风管、排气管均采用镀锌钢板制作，风管配件、钢板厚度和允许漏风量等均应符合规范的规定。