IHLP3232DZERR68M01;IHLP3232DZERR47M01;IHLP3232DZER1R0M01;中文规格书,Datasheet资料

S100EM金属密码门禁一体机安装使用前仔细阅读本说明书1 产品简介：本产品为非接触式感应卡金属密码门禁一体机，根据型号不同分别支持EM、HID、MIFARE三种感应卡，是目前最先进的单门门禁控制器之一。

它采用独特的金属外壳设计，灵巧的键盘面板操作，内置高档微处理器，抗干扰能力强，安全性和可靠性极高，可为2000个用户提供强大的安全保障。

它具有超低功耗、夜光键盘、独立密码、韦根输出、输出短路保护、门磁报警、防拆报警、开门按钮、门铃接口、安全级别设置等强大功能，使用非常方便，可广泛应用于家庭、办公室、住宅小区及其它公共场所。

2 功能特点：超低功耗：待机电流小于30mA。

夜光键盘：夜晚也能操作键盘。

用户容量大：支持2000个用户。

独立密码：可使用与卡无关的密码开门。

用户修改密码：用户可自行修改开门密码。

搜索速度快：刷卡至开门时间小于0.1S。

输出短路保护：电锁或报警输出短路时100μS内自动关闭输出。

韦根输出：带有维根输出接口，能输出Wg26卡号或Wg4按键号。

可用键盘删除卡号：卡丢失后可用键盘删除该卡，彻底消除安全隐患。

防拆报警：非法拆机后内置蜂鸣器发出报警音。

有门铃按键和接口：按键与电路隔离，可外接任何门铃。

3技术参数工作电压：AC&DC9-28V静态电流：≤30mA读卡距离：3～8cm存储容量：2000个用户环境温度：-25℃～60℃环境湿度：10%～90%电锁输出：≤3A报警输出：≤20A输出短路保护时间：≤100μS开门时间：0～99秒（可调）外形尺寸：120 *80*25mm4管理员操作恢复出厂设置：断开电源打开后盖，用所配备的两脚短路插针，插进机器后方两位短路座，然后通电，机器“嘀嘀”两声后，接着取下短路插针，即为初始化成功。

（如图1）图1注：恢复出厂设置不会删除用户资料。

进入管理员操作状态:4.1 修改管理员密码：注：管理员密码为6～8位任意数字，请妥善保管好。

4.2 添加用户：4.2.1 连续增加卡：4.2.2 指定卡号增加：注：自动增加时，用户ID号由本机自动产生，范围是1～2000，并从小到大搜索。

DAM-5181使用说明书模拟量采集模块（Version3.10）四川中科亿优科技有限公司w w w.z-y i y o u.c o m目录1产品简介 (1)1.1产品概述 (1)1.2技术参数 (1)1.3产品出厂默认设置 (1)1.4产品外形 (2)2接线说明 (2)2.1模块端口示意图 (2)2.2接口定义 (3)2.3供电电源 (3)2.4通信接口 (3)2.4.1RS485连接 (4)2.4.2RS232连接 (4)2.5电压模拟量输入接线 (5)3通信说明 (5)3.1主从模式 (5)3.2通信参数 (5)3.2.1通信地址 (5)3.2.2通信速率 (6)3.3MODBUS-RTU通信协议 (5)3.3.1读寄存器状态采集数据 (6)3.3.2设置设备地址 (7)3.3.3设置波特率 (7)4配置安装 (8)4.1上位机调试说明 (8)4.2模块参数配置说明 (9)4.3指示灯说明 (9)4.4产品尺寸 (9)4.5安装方式 (10)5售后服务 (11)6免责声明 (11)6.1版权 (11)6.2修改文档的权利 (11)1、产品简介1.1产品概述DAM-5181模拟量采集模块可采集量程为0-5V/0-10V/±5V/±10V的模拟量输入信号，其他量程可以定制。

模块配置隔离RS485/隔离RS232通讯接口，采用工业标准Modbus-RTU 通信协议，可与组态软件、PLC、工业触控屏等进行组网使用，广泛应用于工业现场设备的信号采集、监控等。

电源端口和通信端口都具有防浪涌，防雷击保护，能够最大限度防止工业现场的静电和浪涌冲击。

采用标准DIN35导轨安装方式,现场安装简单方便。

1.2技术参数技术参数描述输入通道2路/4路/8路模拟量输入输入类型电压输入电压量程0～5V、0～10V、±5V、±10V（其他量程可以定制）通信接口隔离RS485/隔离RS232通信协议标准Modbus-RTU波特率1200～115200bps默认参数设备地址1;9600,8,N,1分辨率12位采集精度0.2%采样频率AD采样速率1kHz;Modbus通信更新速率<10Hz工作电压DC+8～24V通信地址1～245支持设备PLC、触摸屏、组态软件等稳定性内置看门狗，防死机保护等级电源接口有防反接保护,防浪涌,防雷击工作温度-40℃～+80℃安装方式标准DIN导轨安装外形尺寸122*72*45mm1.3产品出厂默认设置产品出厂默认设置参数为：●设备地址：1；●波特率：9600bps;●MODBUS-RTU的数据通信格式：8位数据位，1位停止位，无奇偶校验位；1.4产品外形2、接线说明2.1模块端口示意图2.2接口定义端子编号端子名称说明1VCC电源输入正极2GND电源输入负端3GND接地端4485B RS485信号B-5485A RS485信号A+6GND RS485信号接地端7232T RS232发送端8232R RS232接收端9GND RS232接地端10CANL CANL端11CANH CANH端12GND接地端13AIV1第1路模拟量输入正端14GND信号地15AIV2第2路模拟量输入正端16GND信号地17AIV3第3路模拟量输入正端18GND信号地19AIV4第4路模拟量输入正端20GND信号地21AIV5第5路模拟量输入正端22GND信号地23AIV6第6路模拟量输入正端24GND信号地25AIV7第7路模拟量输入正端26GND信号地27AIV8第8路模拟量输入正端28GND信号地2.3供电电源供电电压为8～24V DC的直流电源，需要注意接口有正负之分，输入电源的最大电压为24V，注意保持电压波动在规定的范围内，超过范围可能会造成模块电路永久性损坏。

L DESIGN FEATURESIntroductionThe LTC3851 is a versatile synchro-nous step-down switching regulator controller that is available in a space saving 16-lead 3mm × 3mm QFN or convenient narrow SSOP packages. Its wide input range of 4V to 38V makes it well-suited for regulating power from a variety of sources, including automo-tive batteries, 24V industrial supplies and unregulated wall transformers. The strong onboard drivers allow the use of high power external MOSFETs to produce output currents up to 20A with output voltages ranging from 0.8V to 5.5V.The constant frequency peak cur-rent m ode c ontrol a rchitecture p rovides excellent line and load regulation along with load current sharing capability and dependable cycle-by-cycle current limiting. OPTI-LOOP ® compensation simplifies loop stability design and provides well-behaved regulation over a broad range of operating conditions.Synchronous Buck Controller in 3mm × 3mm QFN Fits Automotive and Industrial Applications with 4V–38V Input Capability The LTC3851 has ±1% output voltage tolerance over temperature. The part’s low minimum on-time (90ns, typical) allows for low duty cycle operation even with switching frequencies as high as 750kHz.Two Current Sensing OptionsThe LTC3851 features a high input impedance current sense comparator. This allows the use of the inductor’s DC resistance (DCR) as the current sense element in conjunction with an RC filter. DCR current sensing allows the designer to eliminate the need for a discrete sense resistor, thereby maxi-mizing efficiency and lowering solution cost. Alternately, higher current sense accuracy may be achieved by connect-ing the SENSE + and SENSE – pins to a precision sense resistor in series with the inductor. The LTC3851 offers the choice of three pin-selectable maxi-mum current sense thresholds (30mV,50mV and 75mV) to accommodate a wide range of DCR values and output current levels.As with all constant frequency, peak current mode control switching regulators, the LTC3851 utilizes slope compensation to prevent sub-harmon-ic oscillations at high duty cycles. Thisby Mark MercerFigure 2. High efficiency 3.3V/15A power supply with DCR sensingOUT V INR FREQ (k)10100O S C I L L A T O R F R E Q U E N C Y (k H z )500250750100036601601000Figure 1. Relationship between oscillator frequency and resistor connected between FREQ/PLLFLTR and GNDDESIGN FEATURES L is accomplished internally by addinga compensating ramp to the inductorcurrent signal. Normally, this resultsin a >40% reduction of maximuminductor peak current at high dutycycles. However, the LTC3851 usesa novel scheme that allows the maxi-mum peak inductor current to remainstable throughout all duty cycles.VersatilityDuring heavy load operation, theLTC3851 operates in constant fre-quency, continuous conduction mode.At light loads, it can be configured to operate in high efficiency Burst Mode® operation, constant frequency pulse-skipping mode or forced con-tinuous conduction mode. Burst Mode operation offers the highest efficiency because energy is transferred from the input to the output in pulse trains of one to several cycles. During the intervening period between pulse trains, the top and bottom MOSFETs are turned off and only the output capacitor provides current to the load. Forced continuous conduction mode results in the lowest output voltage ripple, but is the least efficient at light loads. Pulse-skipping mode offers a compromise—lower output ripple than Burst Mode operation and more efficiency than continuous conduc-tion mode.The switching frequency of theLTC3851 may be programmed from250kHz to 750kHz by the resistor,R FREQ, connected to the FREQ/PLL-FLTR pin. This provides the flexibilityneeded to optimize efficiency. Figure 1shows a plot of the switching frequencyvs R FREQ. Additionally, the switchingfrequency may be synchronized toan external clock. While doing so,the LTC3851 will operate in forcedcontinuous conduction mode.The output voltage can be rampedduring start-up by means of an ad-justable soft-start function, or it cantrack an external ramp signal. Trackand soft-start control are combined ina single pin, TK/SS. Whenever TK/SSis less than 0.64V, the LTC3851 op-erates in pulse-skipping mode. Thisfeature allows for starting up into apre-biased load. When TK/SS is be-tween 0.64V and 0.74V, the regulatoroperates in forced continuous modeto ensure a smooth transition fromstart-up to steady state. Once TK/SSexceeds 0.74V, the mode of opera-tion is determined by the state of theMODE/PLLIN pin.The RUN pin enables or disablesthe LTC3851. This pin has a precision1.22V turn-on threshold which is use-ful for power supply sequencing. Theturn-off threshold is 1.10V. There isan internal 2µA pull-up current sourceon the RUN pin.The LTC3851’s fault protectionfeatures include foldback currentlimiting, output overvoltage detectionand input undervoltage detection. Ifan overload event causes the outputto fall to less than 40% of the targetregulation value, then the LTC3851folds back the maximum current sensethreshold. This reduces the on-time inorder to minimize power dissipation inthe top MOSFET. If the output voltageis more than 10% above the targetregulation value, the bottom MOSFETturns on until the output falls backinto regulation. If the input voltage isallowed to fall low enough such thanthe output of the internal linear regu-lator falls below 3.2V, then switchingoperation is disabled. This feature EFFICIENCY(%)LOAD CURRENT (A)1000.011000.1110102030405060708090Figure 3. Efficiency vs load current with threemodes of operation for the circuit of Figure 2OUTV INFigure 4. High efficiency 1.5V/15A power supply synchronized to 350kHzcontinued on page 36L DESIGN IDEASshould be pulled-up to the same volt-age. In Figure 2 the LDO3V3 regulator is used as the pull-up voltage for the FAULT signal and the power supply for the low power microcontroller used to process pushbutton events and sequence the power supplies. The FAULT pin also acts as an input and hence, must be high before any outputs are enabled.Compact LED DriverThe LT3587 LED driver is designed to drive up to six LEDs with average LED currents between 20mA and 1µA. When the LT3587’s V OUT3 is used as a current regulated LED driver, the V FB3 pin can be used as an overvoltage protection function. By connecting a resistor between V OUT and V FB3 the device limits the maximum allowable output voltage on V OUT3. This feature is extremely important in LED appli-cations because without it the client device may be damaged if one of the LEDs were to open; in such a case, the output would continue to rise asthe internal disconnect FET between CAP3 and V OUT3. This FET ensures that CAP3 maintains its steady-state value while the PWM signal is low, resulting in minimal startup delays. For a 100Hz PWM dimming signal and allowing for 10% deviation from linear-ity at the lowest duty cycle, the LT3587 allows for a dimming ratio of 30:1. If the maximum amount of adjustment range is desired, an external DAC, such as the LTC2630, can be used to feed an adjustment voltage onto the IFB3 resistor, creating an LED current range of 20,000:1.ConclusionTwo highly integrated devices, the LTC3586 and LT3587 can be combined to create a complete USB compatible power solution for portable cameras and other feature-rich portable de-vices. The solution is robust, high performance and compact, with ef-ficient battery charging, instant-on capability and LED protection. Lthe current regulation loop increases voltage in an attempt to regulate the current.The integrated LED driver in the LT3587 is capable of accepting a direct PWM dimming signal into its enable input (EN/SS3) and/or accommodates analog dimming via an external DAC. See Figure 4 for a partial application circuit showing the LED driver with direct PWM and analog dimming.LEDs can change color when the current through them changes, but PWM dimming maintains color consis-tency over the dimming range, as the ON part of the PWM cycle is always the same current. In PWM dimming, the brightness of the LEDs is a function of average current, adjusted by changing the duty cycle of the PWM signal. In analog dimming, the constant current through the LEDs is adjusted, which causes variations in color.The LT3587 accepts PWM signals with frequencies over 60Hz to assure flicker-free operation. High PWM fre-quencies are achievable because ofBATTERY VOL TAGE (V)E F F I C I E N C Y (%)80907060100Figure 3. Battery charging efficiency vs battery voltage with no external load (P BAT /P BUS )V VIN MN1Si1304BDLFigure 4. Six white LED driver with PWM and analog dimmingprotects against insufficient turn-on voltage for the top MOSFET.3.3V /15A Regulator with DCR Sensing Figure 2 shows a 400kHz, 3.3V output regulator using DCR current sensing. The DC resistance of the inductor is used as the current sense element, eliminating the need for a discrete sense resistor and thus maximizing efficiency. Figure 3 shows a plot of the efficiency vs load for all three modes of operation with an input voltage of 12V.1.5V /15A Regulator Synchronized at 350kHz Figure 4 illustrates a 1.5V output regulator that is synchronized to an external clock. The loop filter components connected to the FREQ/PLLFLTR pin are optimized to achieve a jitter free oscillator frequency and reduced lock time.ConclusionThe LTC3851 combines high perfor-mance, e ase o f u se a nd a c omprehensivefeature set in a 3mm × 3mm 16-pinpackage. DCR current sensing and Burst Mode ® operation keep efficiency high. With a broad 4V to 38V input range, strong MOSFET drivers, low minimum on-time and tracking, the LTC3851 is ideal for automotive elec-tronics, server farms, datacom and telecom power supply systems and industrial equipment. LLTC3851, continued from page 17。

Page 1/6JUMO GmbH & Co. KGDelivery address:Mackenrodtstraße 14,36039 Fulda, GermanyPostal address:36035 Fulda, Germany Phone:+49 661 6003-0Fax:+49 661 6003-607e-mail:*************Internet: JUMO Instrument Co. Ltd.JUMO HouseTemple Bank, RiverwayHarlow, Essex CM 20 2TT, UK Phone:+44 1279 635533Fax:+44 1279 635262e-mail:*************.uk Internet: JUMO Process Control, Inc.8 Technology Boulevard Canastota, NY 13031, USA Phone:315-697-JUMO1-800-554-JUMOFax:315-697-5867e-mail:************Internet:Block diagramSpecial featuresk Choice of “electrical” or“hot gas” defrosting process k 16A relay for cooling unit and 8A relay for defrosting and fan functions k 2 analog inputs for RTDs,KTY1X-6 or KTY2X-6in 2-wire circuitk Customized linearization is programmable through the setup program k Operating hours counter with integrated service counter k Alarm generation via relay or buzzer k Available with real-time clock, data logger, and RS485 interface k The data logger records the measurement inputs and switching states of all relays. This makes it possible to implement HACCP monitoring of the cold chain. k Up to 8 parameters can be enabled individually for the operating level k The parameter level is protected by a code, thus preventing any unauthorized access to the instrument data.k Meets the requirements as per EN 12830 and EN 13485k Setup program for instrument configuration andevaluation of the data loggerJUMO eTRON M100Electronic Refrigeration Controller76mm x 36mm formatBrief descriptionfreezer cabinets or cold displays, for connection to RTD probes Pt100, Pt1000, KTY1X-6 or KTY2X-6. The first measurement input is used to acquire the temperature of the cold store. The second measurement input acquires the evaporator temperature, and ends the defrosting process as soon as the limit for defrosting has been reached.The measurements and parameters are shown in a 3-character backlit display.Three relays are available for the cooling unit, the defrosting heating, and the fan.Alarms can optionally be generated via a relay or by means of the integrated buzzer.The switching states of the relays are indicated via yellow LEDs. Further options include a data logger with an adjustable recording interval for HACCP-compliant documentation 1, an RS485interface, and a real-time clock. The electrical connection is made via screw terminals. Four keys serve for instrument operation and parameterization.A setup program and a PC interface are available as accessories, for easy parameterization from the PC, and for evaluating the data logger.Type 701061/...HACCP : H azard A nalysis and C ritical C ontrol P ointApprovalsDisplays and controlsTechnical dataAnalog inputsEnvironmental influencesOutputLED below the symbols A PC interface and an adapter (4-pole socket) are used to connect the instrument to a PC.Ambient temperature range 0to 55°C Storage temperature range -40to +70°CClimatic conditions ≤85% rel. humidity, no condensationShock und vibration DIN EN 60068-2-6 schedule C.2, Frequency-Range: 10 to 55 HzAcceleration: 20 m/s 2 (2g)Care of the front panelThe front panel can be cleaned with normal commercial washing, rinsing and cleaning agents.Do not use any solvents such as methylated spirits, white spirit, P1 or xylol !Relay for cooling, changeover (SPDT)Relay for alarm, changeover (SPDT)70 000 operations at 16A, 250V AC, 50Hz resistive load 60.000 operations at 16A, 250V AC, 50Hz cos phi > 0,6Relay for defrosting, make (SPST -NO)Relay for fan, make (SPST -NO)100 000 operations at 8A, 250V AC, 50Hz resistive load 85.000 operations at 8A, 250V AC, 50Hz cos phi > 0,6RS485 interfaceSupply voltageHousingElectrical dataApproval/MarksMaximum baud rate38.4kbaud Maximum transmission length <1200m Maximum number of stations 32PriorityThe RS485 must not be used while the setup interface is in operation !Supply voltage 12—24V AC/DC +15/-15%, 48 — 63Hz (for operation with SELV circuits only !)(not electrically isolated from the analog inputs)Power consumption< 3WMaterial polycarbonate, silver gray RAL 7001Mountingin panel cut-out, with bezel sealOperating position unrestricted Weightapprox. 160g Enclosure protection to EN 60529,IEC 529IP65 front, IP20 rearFlammability classUL 94 V0Data backupThe data sets of the data logger are saved to a flash memory.The adjustable parameters are stored in EEPROM.Data are preserved after a power interruption.Data logger:Recording duration depending from Recording interval (Parameter rEC)Connection circuitscrew terminals for wire cross-sections up to 4 mm 2, solid wire,up to 2.5 mm 2, stranded wireElectromagnetic compatibility interference emission interference immunity Product family standard: EN 61326Class Bto industrial requirementsOperating conditions The instrument is designed as a panel-mounting unit.Electrical safetyEN 60730, Part 1, overvoltage category III, pollution degree 2Accuracy of the real-time clock,bufferingat 25°C: +15/- 15 sec per month, temperature effect: - 0.35 ppm/10°Cwithin the ambient temperature range: +60/- 60 sec per monthGold Cap capacitor buffers the clock time unpowered for about 20 days.Technical and functional characteristics of temperature recording devices or thermometersas per EN 12830 and EN 13485Abbreviation Inspection authority valid forULUnderwriters Laboratoriesonly valid for mass-production units with the JUMO symbolrEC Recording duration 1 min 7 days 19 hours5 min 39 days (1 month, 9 days)15 min 117 days (4 month)60 min 469 days (1year 3 months)120 min938 days (2 years 6 months)Connection diagramDimensionsType 701061/...Controller functionsCooling, defrosting and fan functionsSpecial function: cooling and heating with fan relay2 Pt100 push-in probes (extra code 236)Standard accessories- 1 Operating Manual - 1 spring clip and bezel sealAccessories - Price Sheet 70.9770Sales No.Setup program, multilingual70/00485306PC interface with USB/TTL converter, adapter (socket) and adapter (plug)70/00456352PC interface TTL /RS232 converter and adapter (socket)70/00350260Accessories - Price Sheet 70.9710Sales No.Adapter frame for mounting on DIN rail70/00483019Order details(1)Basic version701061JUMO eTRON M100with 2 measurement inputs and 3 relay outputs(2)Basic type extensions x 8factory-set, configurablex 9configuration to customer specification Option 1x 0not available x 1buzzerx 2alarm contact, changeover (SPDT) contact 16A/250V Option 2x 0not available x 1RS485 interfacex 2data logger, real-time clock, and RS485 interface (3)Supply voltagex 3212—24V AC/DC +15/-15 %, 48—63Hz (4)Extra codesx 000no Pt100 push-in probe x2362 Pt100 push-in probes(diameter: 6mm, fitting length: 50mm, connecting cable: 1500mm)(1)(2)(3)(4)Order code /-/Order example701061/800-32/000。

UC-8100A-ME-T系列Arm Cortex-A81GHz IIoT閘道器，內建LTE Cat.操作溫度為-40至70°C特色與優點•Armv7Cortex-A81000Mhz處理器•Moxa工業Linux，提供10年長期支援•兩個自動感應10/100Mbps乙太網路連接埠•用於儲存裝置擴充的SD卡插槽•配備可程控LED以及可程控按鈕，讓您輕鬆地完成安裝與維護•適用無線模組的Mini-PCIe插槽•LTE規格電腦，獲得Verizon/AT&T認證以及工業級CE/FCC/UL認證•-40到70°C寬溫度範圍，已啟用LTE認證簡介UC-8100A-ME-T運算平台專為內嵌式資料擷取應用所設計。

電腦配備雙RS-232/422/485串列埠和雙10/100Mbps乙太網路連接埠，以及Mini PCIe插槽以支援行動通訊模組。

這些多元功能讓使用者能有效地調整UC-8100A-ME-T以適應各種複雜通訊解決方案。

UC-8100A-ME-T採用的是專為能源監視系統進行最佳化的Cortex-A8處理器，但是該處理器目前已被廣泛地用於各種工業解決方案。

這款輕薄的嵌入式電腦是可靠且安全的閘道，具備彈性的介面選項，可協助您在現場進行資料擷取並進行處理，同時也是適用於許多其他大規模部署的實用通訊平台。

備有已啟用LTE的寬溫度型號供您選擇。

所有裝置全都在試驗室中經過完整測試，保證已啟用LTE的運算平台適用於寬溫應用。

外觀規格ComputerCPU Armv7Cortex-A81GHzPre-installed OS Moxa Industrial Linux(Debian9,Kernel4.4)See /MILDRAM1GB DDR3Storage Pre-installed8GB eMMCStorage Slot SD slots x1Computer InterfaceTPM TPM v2.0USB2.0USB2.0hosts x1,type-A connectorsConsole Port RS-232(TxD,RxD,GND),4-pin header output(115200,n,8,1) Expansion Slots UC-8112A-ME-T-LX:mPCIe slot x1Number of SIMs1SIM Format MiniButtons Reset buttonSerial Ports RS-232/422/485ports x2,software-selectable(terminal block) Cellular Antenna Connector SMA x2GPS Antenna Connector SMA x1Ethernet InterfaceEthernet Ports Auto-sensing10/100Mbps ports(RJ45connector)x2 Magnetic Isolation Protection 1.5kV(built-in)Serial InterfaceBaudrate300bps to921.6kbpsData Bits5,6,7,8Parity None,Even,Odd,Space,MarkStop Bits1,1.5,2Serial SignalsRS-232TxD,RxD,RTS,CTS,GNDRS-422Tx+,Tx-,Rx+,Rx-,GNDRS-485-2w Data+,Data-,GNDRS-485-4w Tx+,Tx-,Rx+,Rx-,GNDCellular InterfaceBand Options US model:LTE Bands:Band2(1900MHz)/Band4(1700MHz)/Band5(850MHz)/Band13(700MHz)/Band17(700MHz)UMTS Bands:Band2(1900MHz)/Band5(850MHz)Carrier Approval:Verizon,AT&TEU model:LTE Bands:Band1(2100MHz)/Band3(1800MHz)/Band5(850MHz)/Band7(2600MHz)/Band8(900MHz)/LTE Band20(800MHz)UMTS Bands:Band1(2100MHz)/Band2(1900MHz)/Band5(850MHz)/Band8(900MHz)AP model:LTE Bands:Band1(2100MHz)/Band3(1800MHz)/Band5(850MHz)/Band7(2600MHz)/Band8(900MHz)/Band28(700MHz)UMTS Bands:Band1(2100MHz)/Band2(1900MHz)/Band5(850MHz)/Band8(900MHz)GPS InterfaceReceiver Types72-channel u-blox M8engineGPS/GLONASS/GalileoAccuracy Position:2.5m CEPSBAS:2.0m CEPAcquisition Aided starts:3secCold starts:26secSensitivity Cold starts:-148dBmTracking:-164dBmTime Pulse0.25Hz to10MHzLED IndicatorsSystem Power x1Programmable x1SD slots x1USB x1,Diagnostic x3Wireless Signal Strength Cellular/Wi-Fi x3Power ParametersInput Current UC-8112A-ME-T-LX:500mA@12VDCAll other models:700mA@12VDCInput Voltage12to36VDCPower Consumption UC-8112A-ME-T-LX:6WAll other models:8WReliabilityAlert Tools External RTC(real-time clock)Automatic Reboot Trigger External WDT(watchdog timer)Physical CharacteristicsDimensions141x125.6x33mm(5.55x4.94x1.3in)Housing MetalInstallation DIN-rail mountingWall mounting(with optional kit)Weight550g(1.22lb)Environmental LimitsAmbient Relative Humidity5to95%(non-condensing)Operating Temperature UC-8112A-ME-T-LX:-40to85°C(-40to185°F)UC-8112A-ME-T-LX-AP:-40to70°C(-40to158°F)UC-8112A-ME-T-LX-US:-40to70°C(-40to158°F)UC-8112A-ME-T-LX-EU:-40to70°C(-40to158°F)Storage Temperature(package included)-40to85°C(-40to185°F)Shock IEC60068-2-27Vibration2Grms@IEC60068-2-64,random wave,5-500Hz,1hr per axis(without USB devicesattached)Standards and CertificationsEMC EN55032/35EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:4kV;Air:8kVIEC61000-4-3RS:80MHz to5GHz:3V/mIEC61000-4-4EFT:Power:1kV;Signal:0.5kVIEC61000-4-6CS:3VIEC61000-4-5Surge:Power:0.5kV;Signal:1kVIEC61000-4-8PFMFSafety UL62368-1,EN62368-1Hazardous Locations Class I Division2ATEXIECExCarrier Approvals AT&TVerizonGreen Product RoHS,CRoHS,WEEEMTBFTime UC-8112A-ME-T-LX:868,326hrsUC-8112A-ME-T-LX-US:677,570hrsUC-8112A-ME-T-LX-EU:677,570hrsUC-8112A-ME-T-LX-AP:677,570hrsStandards Telcordia(Bellcore)Standard TR/SRWarrantyWarranty Period5yearsDetails See /tw/warrantyPackage ContentsDevice1x UC-8100A-ME-T Series computerCable1x console cableDocumentation1x quick installation guide1x warranty cardInstallation Kit1x DIN-rail kit(preinstalled)1x power jack尺寸訂購資訊Model Name CPU RAM Storage LTE Operating Temp. UC-8112A-ME-T-LX1GHz1GB8GB–-40to85°CUC-8112A-ME-T-LX-US1GHz1GB8GB US Region-40to70°CUC-8112A-ME-T-LX-EU1GHz1GB8GB EU Region-40to70°CUC-8112A-ME-T-LX-AP1GHz1GB8GB APAC Region-40to70°C配件（選購）Power AdaptersPWR-12150-AU-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,Australia(AU)plug,-40to75°C operatingtemperaturePWR-12150-UK-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,United Kingdom(UK)plug,-40to75°C operatingtemperaturePWR-12150-CN-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,China(CN)plug,-40to75°C operating temperature PWR-12150-EU-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,Continental Europe(EU)plug,-40to75°C operatingtemperaturePWR-12150-USJP-SA-T Locking barrel plug,12VDC1.5A,100to240VAC,United States/Japan(US/JP)plug,-40to75°Coperating temperatureCablesCBL-F9DPF1x4-BK-100Console cable with4-pin connector,1mAntennasANT-LTE-OSM-03-3m BK700-2700MHz,multi-band antenna,specifically designed for2G,3G,and4G applications,3m cable ANT-LTE-OSM-06-3m BK MIMO Multiband antenna with screw-fastened mounting option for700-2700/2400-2500/5150-5850MHzfrequenciesANT-LTE-ASM-05BK704-960/1710-2620MHz,LTE stick antenna,5dBiANT-LTE-ASM-04BK704-960/1710-2620MHz,LTE omni-directional stick antenna,4.5dBiANT-LTEUS-ASM-01GSM/GPRS/EDGE/UMTS/HSPA/LTE,omni-directional rubber duck antenna,1dBiDIN-Rail Mounting KitsUC-8100A-ME DIN-Rail Kit DIN-rail mounting kit for UC-8100A-ME-T SeriesWall-Mounting KitsUC-8100A-ME Wall Mount Kit Wall-mounting kit for UC-8100A-ME-T Series©Moxa Inc.版權所有.2021年12月17日更新。

深圳市首韩科技有限公司限位开关深圳市首韩科技有限公司SHENZHEN SHOUHAN TECHNOLOGYCO.,LTDTel:*************Fax:*************客户Customer：产品名称Project：规格型号Part No：贵公司承认印Approal slgnatures料号/Part No.签章/Signatures日期Date:拟制/Drawn 李春风审核/Check 钟华华批准/Approved罗孝金1深圳市首韩科技有限SH-31R 11T1. 一般特性General Characteristics正常温度: 5℃~35℃ 相对湿度: 45%~85% 1.1 额定值(Rating Value): DC 5V 10mA1.2 工作温度(Work Temperature Range): -10℃ ~ 60℃1.3 存贮温度(Store Temperature Range): -20℃ ~ 80℃1.4 正常测试条件(未有特殊说明量测在以下条件进行):General test condition (Tests and measurements shall be made under the following standard conditions unless otherwise specified):RH 气 压: 8,600~10,600帕Temperature: 5℃~35℃ Relative humidity: 45%~85% Air pressure: 8,600~10,600 pa2. 产品外观及尺寸要求 Appearance & Dimension Requirement2.1 产品外形结构紧凑,无配合不良.The structure of product is compact, and assembly of parts has no badness.2.2 产品塑胶部件无严重缩水、披锋、欠注、斑点、破损或变形现象.The plastic parts of product have no serious defects such as very serious shrink, scarcity,fleck, disrepair, transmutation, etc.2.3 产品引脚和外壳无严重氧化、脏污、变形、毛刺或电镀不良.Lead feet and shell have no serious defects such as oxidation, smudge, disrepair, burr, defects on plating.2.4 开关操作顺畅,节奏感强,无明显卡塞现象。

【智嵌物联】8路网络继电器控制器深圳总部地址：广东省深圳市宝安区新桥街道新桥社区新和大道6-18号1203 网址： 电话：*************北京办事处地址：北京市房山城区德润街6号院8号楼3层 电话：182****5439天猫店铺 淘宝店铺 京东店铺 微信公众号 公司官网修订历史目录1. 关于手册 (1)1.1 命名规则 (1)1.2 本手册适用型号 (2)1.3 相关产品资料下载 (2)2. 产品快速入门 (4)2.1 功能特点 (4)2.2 硬件准备 (4)2.3 使用配置软件控制 (5)2.4 使用网络调试助手控制 (8)3. 产品规格 (10)3.1 电气参数 (10)3.2 工作环境参数 (10)3.3 EMC防护等级 (10)3.4 继电器规格 (10)3.5 数字量输入参数 (12)3.6 通信参数 (12)4. 硬件接口及机械尺寸 (13)4.1 产品接口布局 (13)4.1.1 ZQWL-IO-1BX1C8、ZQWL-IO-2BX1C8接口布局 (13)4.1.2 ZQWL-IO-1BXRC8、ZQWL-IO-2BXRC8接口布局 (14)4.1.3 ZQWL-IO-1CXRC8、ZQWL-IO-2CXRC8接口布局 (15)4.1.4 ZQWL-IO-1CX1C8、ZQWL-IO-2CX1C8接口说明 (16)4.1.5 ZQWL-IO-1DXRC8、ZQWL-IO-2DXRC8接口布局 (17)4.1.6 ZQWL-IO-1BX0C8、ZQWL-IO-2BX0C84接口布局 (18)4.1.7 ZQWL-IO-1BX3C8、ZQWL-IO-2BX3C8接口布局 (19)4.1.8 ZQWL-IO-5CXZE8接口布局 (20)4.2 设备开关量输入 (21)4.3 设备继电器输出接线 (22)4.4 指示灯 (22)5. 模块参数配置 (23)5.1 智嵌网络IO配置软件 (23)5.2 网页参数配置 (24)6. 设备的高级功能 (28)6.1 心跳包 (28)6.1.1 心跳包 (28)6.1.2 注册包 (28)6.2 设备级联控制 (28)6.3 设备DI输入状态自动上报 (29)6.4 设备DI输入与DO输出联动 (29)6.5 设备与设备之间联动 (29)6.6 延时断开控制 (30)6.7 定时控制 (30)6.8 串口服务器功能 (31)7. 模块通讯协议 (32)7.1 自定义协议 (32)7.1.1 控制指令 (32)7.1.2 配置指令 (34)7.2 ASCII 控制协议 (35)7.2.1 设置DO继电器输出状态 (36)7.2.2 设置单路DO继电器状态 (36)7.2.3 设置DO继电器延时断开时间 (36)7.2.4 只读取DI状态 (37)7.2.5 只读DO继电器状态 (38)7.2.6 DI的脉冲计数值清零 (38)7.2.7 只读DI的脉冲计数值 (39)7.3 Modbus rtu协议 (39)7.4 Modbus rtu 指令码举例 (41)7.5 Modbus TCP协议 (44)8. 恢复出厂设置以及固件升级 (46)8.1 恢复出厂设置 (46)8.2 模块固件升级 (46)9. 应用案例 (47)9.1 网络IO控制器接入智嵌云控演示 (47)9.2 网络IO控制器设备间一对一联动控制配置方法 (53)常见故障处理 (57)销售网络 (58)1. 关于手册1.1 命名规则智嵌物联继电器控制设备的命名规则如图1.1所示。

DAM3232继电器控制卡说明书V1.0北京聚英翱翔电子有限责任公司2018年12月目录一、产品特点 (1)二、产品功能 (1)三、产品选型 (1)四、主要参数 (2)五、接口说明 (3)1、引脚说明 (3)六、通讯接线说明 (4)1、RS232接线方式 (4)2、RS485级联接线方式 (5)七、输入输出接线说明 (6)1、继电器接线说明................................................................................错误！未定义书签。

2、无源开关量（干接点）接线示意图................................................错误！未定义书签。

3、有源开关量（PNP型高电平）接线示意图....................................错误！未定义书签。

4、模拟量接线示意图..........................................................................错误！未定义书签。

八、测试软件说明 (8)1、软件下载 (8)2、软件界面 (8)3、通讯测试 (9)九、参数配置 (9)1、设备地址 (9)2、波特率的读取与设置 (10)3、闪开闪断功能及设置 (11)十、开发资料说明 (11)1、通讯协议说明 (11)十、智能自控功能配置说明 (12)十一、开发资料说明 (12)1、通讯协议说明 (12)2、Modbus寄存器说明 (12)3、指令生成说明 (15)4、指令列表 (16)5、指令详解 (18)十二、常见问题与解决方法 (25)十三、技术支持联系方式 (25)一、产品特点●DC12V/24V（默认12V）；●继电器输出触点隔离；●485通信光电隔离；●通讯接口支持RS485、RS232、RJ45以太网接口、无线WIFI通讯；●通信波特率：2400,4800,9600,19200,38400（可以通过软件修改，默认9600）；●通信协议：支持标准modbus-RTU/TCP/ASCLL协议；●可以设置0-255个设备地址；●具有闪开、闪断功能，可以在指令里边带参数、操作继电器开一段时间自动关闭；●具有频闪功能，可以控制器继电器周期性开关。

1Rev. 0DESCRIPTIONLT8653SDual Channel 2A, 42V, Synchronous Step-DownSilent Switcher with 6.2μA Quiescent CurrentDemonstration circuit 2535A is a 42V, dual channel, 2A synchronous step-down regulator featuring the L T ®8653S . The LT8653S is a compact, high efficiency, high speed syn-chronous monolithic step-down switching regulator which features the second generation Silent Switcher ® technology that minimizes EMI and reduces PCB layout sensitivity. The demo board is designed for two outputs: 5V and 3.3V from a 5.5V to 42V input. Each output can source up to 2A continuous current at the same time. The wide input range allows a variety of input sources, such as automo-tive batteries and industrial supplies. The integrated power switches and other necessary circuitry reduce the external component count and simplify design. Selectable spread spectrum mode of operation can further improve EMI/EMC performance. Ultralow quiescent current in Burst Mode ® operation achieves high efficiency at very light loads.The DC2535A demo board is 3" by 3" in size and has four layers with 2oz copper on the outer layers and 1oz cop-per on the inner layers. The DC2535A operates at 2MHz switching frequency by default to minimize solution size. The LT8653S is assembled in a small thermally enhanced 4mm × 3mm LQFN package. The IC temperature rises about 50°C when both channels operate at full load, 2A each, with the default switching frequency of 2MHz.The jumper JP2 on the demo board determines the con-figuration of the SYNC pin of the LT8653S. By default, the SYNC pin on the demo board is grounded for lowAll registered trademarks and trademarks are the property of their respective owners.PERFORMANCE SUMMARYripple Burst Mode operation. Moving JP2 to FCM W/SSM enables the spread spectrum mode of operation by tying the SYNC pin to VCC pin. To synchronize to an external clock, move JP2 to FCM W/O SSM OR SYNC position and apply the external clock on the SYNC turret.The jumpers JP3 and JP4 on the demo board determine the configuration of the output voltage select bit pins D0 and D1. On the DC2535A, the D0 and D1 pins are by default floating. This combination connects internal feed-back resistor divider between the FB1/FB2 pins and the error amplifier which means that FB1 and FB2 pins are regulated to 5V and 3.3V respectively. On the DC2535A, FB1/FB2 pins are by default connected through 0Ω resis-tors to the output nodes. Refer to the LT8653S data sheet for more information on the D0 and D1 pin settings.The demo board has an EMI filter installed. The EMI per-formance of the demo board (with EMI filter) is shown in Figure 1 and Figure 2. The black lines in Figure 2 are CISPR 25 class 5 limits. To achieve EMI/EMC performance as shown in Figure 2, the input EMI filter is required and the input voltage should be applied at VEMI terminal.The LT8653S data sheet gives a complete description of the part, operation and application information. The data sheet must be read in conjunction with this manual for demo circuit 2535A.Design files for this circuit board are available .Specifications are at T A = 25°CSYMBOL PARAMETER CONDITIONSMIN TYPMAX UNITSV IN Input Supply Range 5.542V V OUT1Output1 Voltage4.855.2V I OUT1Maximum Output1 Current 2A V OUT2Output2 Voltage3.168 3.33.432V I OUT2Maximum Output2 Current 2A f SW Switching Frequency 1.852 2.15MHz EFEEfficiency at DCV IN = 12V, I OUT1 = 1A, I OUT2 = 1A93.1%Figure 2. Radiated EMI Performance (CISPR 25 Radiated Emission Test with Class 5 Peak Limits)2Rev. 03Rev. 0QUICK START PROCEDUREFigure 3. Proper Measurement Equipment SetupFigure 4. Measure Output RippleDemonstration circuit 2535A is easy to set up to evalu-ate the performance of the LT8653S. Refer to Figure 3 for proper measurement equipment setup and follow the procedure below:NOTE: When measuring the input or output voltage rip-ple, care must be taken to avoid long ground lead on the oscilloscope probe. Measure the output voltage ripple by touching the probe tip directly across the VOUT and GND terminals. See Figure 4 for the proper measurement technique.1. Check that JP3 and JP4 are placed on the FLOAT position.2. Check that JP2 are placed on BURST position.3. With power off, connect the input power supply to VEMI and GND. If the EMI/EMC performance is not important, connect the input power supply to VIN and GND.4. With power off, connect the loads from VOUT1 to GND, and VOUT2 to GND.5. Turn on the power at the input.NOTE: make sure that the input voltage never exceeds 42V.6. Check for proper output voltages: V OUT1 = 5V, V OUT2 = 3.3V. NOTE: If there is no output, temporarily disconnect the load to make sure that the load is not set too high.7. Once the proper output voltages are established, adjust the load within the operating ranges and observe the output voltage regulation, ripple voltage, efficiency and other parameters.8. An external clock can be added to the SYNC terminal when SYNC function is used (JP2 on the FCM W/O SSM OR SYNC position). Please make sure that R12 resistor should be chosen to set the LT8653S switching frequency equal to or below the lowest synchronization frequency. JP2 can also set the LT8653S in spread spectrum mode (JP2 on the FCM W/SSM position).OUTPARTS LISTITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBERRequired Circuit Components11C2CAP., 4.7µF, X7R, 50V, 10%, 1206MURATA, GRM31CR71H475KA12L24C5, C9, C17, C23CAP., 1µF, X7R, 10V, 10%, 0603MURATA, GRM188R71A105KA61D32C6, C12CAP., 10µF, X5R, 10V, 10%, 0603TDK, C1608X5R1A106K080AC41C10CAP., 47µF, X5R, 10V, 10%, 1210MURATA, GRM32ER61A476KE20K51C11CAP., 100µF, X5R, 10V, 20%, 1210MURATA, GRM32ER61A107ME20L62C15, C16CAP., 10nF, X7R, 25V, 10%, 0603MURATA, GRM188R71E103KA01D72L1, L2INDUCTOR, 2.2µH, XFL4020COILCRAFT, XFL4020-222ME81R1RES., 1M, 1/10W, 1%, 0603VISHAY, CRCW06031M00FKEA94R4, R5, R13, R14RES., 0Ω, 1/10W, 0603VISHAY, CRCW06030000Z0EA102R10, R11RES., 100k, 1/10W, 1%, 0603VISHAY, CRCW0603100KFKEA111R12RES., 15k, 1/10W, 1%, 0603VISHAY, CRCW060315K0FKEA121U1I.C., STEP-DOWN SWITCHER, LQFN ANALOG DEVICES, LT8653SEV#PBF Additional Demo Board Circuit Components11C1CAP., ALUM, 22µF, 63V, 20%SUN ELECT., 63CE22BS20C7, C8CAP., OPTION, 060332C3, C4 (OPT)CAP., 0.1µF, X7R, 50V, 10%, 0402MURATA, GRM155R71H104KE14J40C13, C14, C21, C22 (OPT)CAP., OPTION, 060353C18, C25, C26CAP., 1µF, X5R, 50V, 10% 0603MURATA, GRM188R61H105KAALD62C19, C20CAP., 10µF, X7R, 50V, 10% 1210MURATA, GRM32ER71H106KA12L71FB1CHIP BEAD, 0805TDK, MPZ2012S101A81L3INDUCTOR, 220nH VISHAY, IHLP1616ABERR22M0191R2RES., 0Ω, 1/10W, 0603VISHAY, CRCW06030000Z0EA100R3, R6, R7, R8, R9 (OPT)RES, OPTION, 0603Hardware: For Demo Board Only116E1-E16TESTPOINT, TURRET, 0.094"MILL-MAX, 2501-2-00-80-00-00-07-0 21JP1HEADER 3 PIN 0.079 SINGLE ROW WURTH ELEKTRONIK, 6200031112133JP2, JP3, JP4HEADER 3 PIN 0.079 DOUBLE ROW WURTH ELEKTRONIK, 6200062112144xJP1, xJP2, xJP3, xJP4SHUNT, 0.079" CENTER WURTH ELEKTRONIK, 6080021342154MH1-MH4STAND-OFF, NYLON, 9.5mm WURTH ELEKTRONIK, 7029330004Rev. 05Rev. 0Information furnished by Analog Devices is believed to be accurate and reliable. However , no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices.SCHEMATIC DIAGRAM1. A L L R E S I S T O R S A R E 0603. A L L C A P A C I T O R S A R E 0603.N O T E : U N L E S S O T H E R W I S E S P E C I F I E DS Y N CG N DP G 2V C CP G 1V O U T 23.3V / 2AV I N5.3V - 42VE NJ P 3D 0V E M I 5.3V - 42VC L K O U TV B I A SS S 1V O U T 15V / 2AG N S S 2G N D6Rev. 0ANALOG DEVICES, INC. 201912/19ESD CautionESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.Legal Terms and ConditionsBy using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONL Y. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer , assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer , their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board. Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice to Customer . Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT . ADI SPECIFICALL Y DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT , OR CONSEQUENTIAL DAMAGES RESUL TING FROM CUSTOMER’S POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT . Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW . This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed.。

Display Error Messages显示错误信息Alarms and Warnings 警报和警告If an error occurs, the unit will display an alarm or warning message in clear text on the graphic display (60). Each error is allocated an error code.如果发生错误，机器将会在文本中以图线形式显示报警或警告信息。

每一个错误分配一个错误代码。

Errors are separated into three categories:错误可分为3 类:Hard alarms (error codes -1 to -1023): When a hard alarm occurs, temperature control is immediately stopped. The unit must be turned off, using the main switch (36) and the error condition corrected. The unit can then be turned on again. If an alarm occurs during the unit start up and self-test, please contact Huber for advice.硬报警(错误代码-1 到-1023):硬报警（错误代码-1至-1023）：当发生硬报警，立即停止温度控制。

必须关闭机器，使用主开关（36）和修改错误条件。

然后可以再次开启机器。

如果机器在启动和自检过程中报警，请与Huber公司联系。

Soft alarms (error codes -1024 to -2047): These alarms also cause the temperature control to be immediately stopped. After clearing the error condition temperature control can be restarted without cycling power to the unit.软报警(错误代码-1024 到-2047):软报警（错误代码-1024至-2047）：报警也可导致温度控制立即停止。

Evaluates: MAX25239, MAX25240MAX25240 Evaluation KitOne Analog Way, Wilmington, MA 01887 U.S.A. | Tel: 781.329.4700 | © 2021 Analog Devices, Inc. All rights reserved.© 2021 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners.Click here to ask an associate for production status of specific part numbers.General DescriptionThe MAX25240 evaluation kit (EV kit) is a fully assembled and tested application circuit that simplifies the evaluation of the MAX25240 400kHz, 36V buck-boost converter. All installed components are rated for the automotive temperature range. Various test points and jumpers are included for evaluation.The standard EV kit comes with the MAX25240AFFF/VY+ installed (11.5V, 400kHz) and can also be used to evalu-ate other MAX25240 variants with minimal component changes shown in the MAX25240 EV Kit Bill of Materials .Features●High-Voltage Step-Down Converters with IntegratedPower FETs to Minimize Board-Area-Occupancy ●Seamless Transition Across buck and BoostOperating Regions ● 4.5V to 40V Input Supply Range ●Extended Input Range Down to 2VAfter Initial Startup●Provides 11.5V Output up to 4.5A Output Current ●Output Voltages Adjustable Between 3.3V and 20VThrough External Resistors ●±2% Output Voltage Accuracy●Skip-Mode Operation to Maximize Efficiency DuringLight Load Conditions ●Frequency-Synchronization Input ●Spread Spectrum Enable Input ●Buck-Boost Enable Input●Voltage-Monitoring PGOOD Output●Jumpers and Test Points on Key Nodes forSimplified Evaluation ●Proven PCB Layout ●Fully Assembled and TestedOrdering Information appears at end of data sheet.319-100613; Rev 1; 7/22Quick StartRequired Equipment●MAX25240 EV kit●15V, 10A DC power supply (PS) ●Voltmeters (VM)●Electronic loads (EL)ProcedureThe EV kit is fully assembled and tested. Follow the steps below to verify board operation.Caution: Do not turn on the power supply until all connections are completed.1) Verify that all jumpers are in their default positions asshown in Table 1.2) Preset the power supply, PS to 14V. Turn off the PS.3) Preset the electronic loads, EL to 3A. Turn off the EL.4) Connect the positive terminal of EL to OUT; connectthe negative terminal of EL to GND4.5) Connect the positive terminal of PS to SUP; connectthe negative terminal of PS to GND.6) Connect the positive terminal of VM to OUT; connectthe negative terminal of VM to GND2.7) Turn on the power supply.8) Verify that the voltmeter on VOUT1 measures ap-proximately 11.5V.9) Enable the electronic loads, EL.10) Verify that the voltmeter on VOUT1 measures ap-proximately 11.5V.Detailed DescriptionThe MAX25240 EV kit provides a fully developed and proven layout for evaluating all variants of the MAX25240 family of current-mode-controlled buck converter ICs. Each converter accepts input supply voltages as high as 36V and input supply transients up to 40V.Operation ModesThe IC can operate in two modes, forced-PWM or skip mode. Skip mode offers improved efficiency over PWM during light-load conditions. When FSYNC is pulled low, the device operates in skip mode for light loads, and in PWM mode for larger loads. When FSYNC is pulled high, the device is forced to operate in PWM across all load conditions.Switching Frequency and External SynchronizationThe FSYNC pin can be used to synchronize the switching frequency of the IC to an external source by applying an external clock signal. The device is forced to operate in PWM when FSYNC is connected to a clock source.Output Voltage Monitoring (PGOOD)The EV kit provides output test points (PGOOD) to moni-tor the status of the buck-boost output voltage on OUT. PGOOD is high impedance when the output voltage rises above its 95% (typ) of regulation voltage. PGOOD pulls low when the respective output voltage drops below 93.5% (typ) of its nominal regulated voltage.To obtain logic signals, pull PGOOD up to VCC by install-ing the shunts on jumpers on JU_.Setting the Output Voltage in Buck ConvertersThe EV kit comes assembled to provide a fixed 11.5V output regulation on OUT. To externally adjust the voltage at OUT, remove R fb and place appropriate resistors in positions Ry and Rx according to the following equation:VOUT1R7R81VFB=−where VFB = 0.8V (typ) and R8 is between 10kΩ and50kΩ.Evaluating Other VariantsThe MAX25240EVKIT# comes installed with the 11.5V/400kHz variant (MAX25240AFFF/VY+)Analog Devices offers additional variations including those that operate at higher switching frequency of 2MHz for smaller component size. See MAX25240 EV Kit Bill of Materials to select components for evaluating 2MHz variants.Refer to the MAX25240 IC data sheet for part variant details and contact the factory to request additional vari-ants of MAX25240.#Denotes RoHS compliance.Table 1. Default Jumper SettingsJUMPER SHUNT POSITIONFUNCTIONJU11–2Buck-boost converter enabled JU21–2Forced-pulse-width-modulation (FPWM) mode enabled JU32–3Spread spectrum disabled JU41–2PGOOD pull-up connectedPARTTYPEMAX25240EVKIT#11.5V/400kHz EV KitOrdering InformationMAX25240 EV Kit Bill of MaterialsITEM QTY REF DES VAR STATUS MAXINVMFG PART #MANUFACTURER VALUE DESCRIPTIONCOMMENTS 12C1, C2Pref EC111000003722EEH ‐ZC1H470PANASONIC 47UF CAP; SMT(CASE_F); 47UF; 20%; 50V; ALUMINUM ‐ELECTROLYTIC (C2:OPEN)21C4Pref 20‐004U7‐11D GRM188Z71C475KE21MURATA4.7UF CAP; SMT (0603); 4.7UF; 10%; 16V; X7R; CERAMIC 35C5‐C7, C15, C18Pref 20‐000U1‐04A C1005X7R1H104K050BB;GRM155R71H104KE14;C1005X7R1H104K050BE; UMK105B7104KV ‐FR TDK; MURATA; TDK; TAIYO YUDEN 0.1UF CAP; SMT (0402); 0.1UF; 10%; 50V; X7R; CERAMIC 41C8Pref 20‐2200P ‐E5C0603C222K1RAC KEMET 2200PF CAP; SMT (0603); 2200PF; 10%; 100V; X7R; CERAMIC 51C9Pref20‐0100P ‐DA9406033C101MAT2A AVX100PFCAP; SMT (0603); 100PF; 20%; 25V; X7R; CERAMIC62C3, C14Pref 20‐004U7‐72GRM31CR71H475KA12; GRJ31CR71H475KE11; GXM31CR71H475KA10; UMK316AB7475KL; GRM31CR71H475KA12LMURATA; MURATA; MURATA; TAIYOYUDEN; MURATA4.7UF CAP;SMT(1206);4.7UF;10%;50V;X7R;CERAMIC (C3:OPEN)76C10‐C13, C19, C20Pref EC111000006843CGA6P3X7R1E226M250AB TDK 22UF CAP; SMT (1210); 22UF; 20%; 25V; X7R; CERAMIC; NOTE:PURCHASE DIRECT FROM THE MANUFACTURER(C19, C20:OPEN)81CFFPref 20‐0022P ‐1506035C220JAT AVX 22PF CAP; SMT (0603); 22PF; 5%; 50V; X7R; CERAMICOPEN 96EN_TP, GND2, GND3, PGOOD, SUP_FILTER, SYNC Pref 01‐9020BUSS20AWG ‐009020 BUSS WEICO WIRE MAXIMPAD EVK KIT PARTS; MAXIM PAD; WIRE; NATURAL; SOLID; WEICO WIRE; SOFT DRAWN BUS TYPE ‐S; 20AWG104GND1, GND4, OUT, SUP Pref 01‐10807400011P ‐80108‐0740‐001EMERSON NETWORK POWER 108‐0740‐001CONNECTOR; MALE; PANELMOUNT; BANANA JACK; STRAIGHT; 1PIN113J1‐J3Pref 01‐PBC03SAAN3P ‐21PBC03SAAN SULLINS PBC03SAANCONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT; 3PINS; ‐65 DEGC TO +125 DEGC121J4Pref 01‐TSW10207TS2P ‐17TSW ‐102‐07‐T ‐S SAMTEC TSW ‐102‐07‐T ‐SCONNECTOR; THROUGH HOLE; TSW SERIES; SINGLE ROW; STRAIGHT;2PINS; ‐55 DEGC TO +105 DEGC131L1Pref 50‐004U7‐0IF XAL7070‐472ME COILCRAFT 4.7UH INDUCTOR; SMT; SHIELDED; 4.7UH; TOL=+/‐20%; 13.6A144MH1‐MH4Pref 02‐SOM35016H ‐009032KEYSTONE 9032MACHINE FABRICATED; ROUND ‐THRU HOLE SPACER; NO THREAD; M3.5; 5/8IN; NYLON151R1Pref 80‐0000R ‐AA6CRCW06030000Z0VISHAY DALE 0RES; SMT (0603); 0; JUMPER; JUMPER; 0.1000W 161R2Pref 80‐0030K ‐24CRCW060330K0FK VISHAY DALE30K RES; SMT (0603); 30K; 1%; +/‐100PPM/DEGC; 0.1000W 171R5Pref 80‐0010K ‐53CRCW060310K0JN; ERJ ‐3GEYJ103VISHAY DALE; PANASONIC 10K RES; SMT (0603); 10K; 5%; +/‐200PPM/DEGK; 0.1000W 181R6Pref 80‐0020R ‐24CRCW060320R0FK; ERJ ‐3EKF20R0VISHAY DALE; PANASONIC 20RES; SMT (0603); 20; 1%; +/‐100PPM/DEGC; 0.1000W 191R7Pref 80‐0294K ‐19ERJ ‐3EKF2943PANASONIC 294K RES; SMT (0603); 294K; 1%; +/‐100PPM/DEGC; 0.1000W OPEN 201R8Pref 80‐0021K ‐24CRCW060321K0FK VISHAY DALE 21K RES; SMT (0603); 21K; 1%; +/‐100PPM/DEGC; 0.1000WOPEN 214SU1‐SU4Pref02‐JMPSNT100BKG ‐00SNT ‐100‐BK ‐GSAMTECSNT ‐100‐BK ‐GTEST POINT; SHUNT AND JUMPER; STR; TOTAL LENGTH=6.10MM; BLACK; INSULATION=GLASS FILLED POLYESTER; CONTACT=PHOSPHOR BRONZE221U1Pref 00‐SAMPLE ‐01MAX25240MAXIM MAX25240EVKIT PART ‐ IC; AUTOMOTIVE 2V TO 36V WIDE VIN; 2.1MHZ; 3.0A; BUCK ‐BOOST CONVERTER; PACKAGE DRAWING NUMBER: 21‐100399; LAND PATTERN NUMBER: 90‐100137; PACKAGE CODE: F222A4FY ‐1231VCC Pref 02‐TPCOMP5007‐005007KEYSTONE N/A TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.35IN; BOARD HOLE=0.063IN; WHITE; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH; RECOMMENDED FOR BOARD THICKNESS=0.062IN; NOT FOR COLD TEST 241PCB‐EPCB25240MAX25240MAXIMPCBPCB:MAX25240‐TOTAL 51DO NOT PURCHASE(DNP)ITEM QTY REF DESVAR STATUS MAXINVMFG PART #MANUFACTURER VALUE DESCRIPTIONCOMMENTS11C16DNP20‐0001U ‐14UMK107AB7105KA; CC0603KRX7R9BB105TAIYO YUDEN; YAGEO 1UFCAP; SMT (0603); 1UF; 10%; 50V; X7R; CERAMIC24C17, C21, C24, C25DNP 20‐000U1‐04A C1005X7R1H104K050BB; GRM155R71H104KE14; C1005X7R1H104K050BE; UMK105B7104KV ‐FR TDK; MURATA; TDK; TAIYO YUDEN0.1UF CAP; SMT (0402); 0.1UF; 10%; 50V; X7R; CERAMIC32C22, C23DNP 20‐0010U ‐B40GRM32ER71H106KA12; CL32B106KBJNNN; UMJ325KB7106KMH; 12105C106K4Z2A MURATA; SAMSUNG ELECTRONICS; TAIYO YU 10UF CAP; SMT (1210); 10UF; 10%; 50V; X7R; CERAMIC41FB1DNP EL111000007023 74279224181WURTH ELECTRONICS INC.180INDUCTOR; SMT; FERRITE ‐BEAD; 180 OHMS AT 100MHZ; TOL=+/‐25%; 10A ;NOTE:PURCHASE DIRECT FROM THE MANUFACTURER 51L2DNPEL111000006365IHLP2020BZERR47M01VISHAY470NHINDUCTOR; SMT; SHIELDED; 470NH; 20%; 2.8ATOTAL9PACKOUT (These are purchased parts but not assembled on PCB and will be shipped with PCB)ITEM QTY REF DESVAR STATUS MAXINVMFG PART #MANUFACTURER VALUE DESCRIPTIONCOMMENTS 11D1DNI ED111000007017RB081LAM ‐20ROHM SEMICONDUCTOR RB081LAM ‐20DIODE; SCH; SMT (SOD ‐128); PIV=20V; IF=80A PACKOUT 21RBSTDNI80‐0010K ‐D3ERJ ‐6GEYJ103; RMCF0805JG10K0PANASONIC; STACKPOLE ELECTRONICS10KRES; SMT (0805); 10K; 5%; +/‐200PPM/DEGC; 0.1250WPACKOUTTOTAL2MAX25240 EV Kit PCB Layout—Silkscreen Top MAX25240 EV Kit PCB Layout—GND Signal MAX25240 EV Kit PCB Layout—Top MAX25240 EV Kit PCB Layout—SignalMAX25240 EV Kit PCB LayoutsMAX25240 EV Kit PCB Layout—Component Placement Bottom MAX25240 EV Kit PCB Layout—Silkscreen BottomMAX25240 EV Kit PCB Layouts (continued)Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners.REVISION NUMBERREVISION DATE DESCRIPTIONPAGES CHANGED010/20Initial release—17/22Changed installed part to the 11.5V/400kHz variant (MAX25240AFFF/VY+)AllRevision History。

NJ300可编程控制器硬件手册V4.30傲拓科技股份有限公司2023年06月基本说明✧感谢您购买了傲拓科技股份有限公司(简称傲拓科技)系列可编程序控制器。

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用户须知✧使用产品要求在控制系统的设计和编程方面有经验。

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知从青龙BOOTLOADER恩智浦KW45产品手册知从®青龙BootLoader知从青龙BOOTLOADER 恩智浦KW45产品手册1 功能概述知从青龙BootLoader 是由知从科技自主研发的程序刷新软件(BootLoader)。

使用知从青龙BootLoader 的控制器，可以通过CAN 、LIN 、SPI 、UART 等通信方式实现应用程序的更新功能。

知从青龙BootLoader 支持NXP 、Infineon 、Renesas 、ST 等多家芯片，并且支持多家整车厂程序刷新规范，可提供定制开发服务。

基于原有Bootloader 功能，知从青龙BootLoader 在KW45平台上实现了Master 与Slave 端芯片之间的刷写通讯功能：控制器可以通过Can 转Spi 模块将发送给Master 端的Can 报文用Spi 传输的方式转发给Slave 端，并由Slave 端来处理转发的诊断报文，进行软件更新。

此功能不仅提供了Slave 端刷新的安全接口，提高了Slave 端软件程序的更新效率，同时支持多家整车厂规范，并能够根据客户需求提供定制开发服务。

知从®青龙BootLoader2应用领域知从青龙BootLoader可应用于基于KW45芯片的控制器程序刷新功能。

支持的应用场景包括：钥匙无钥匙开锁/无钥匙启动(PEPS)胎压监测系统(TPMS)传感器无线控制系统汽车共享、无线车载诊断功能3配置环境配置环境Hardware (Chip) KW45Compilers Supported GHS v7.1.4Debugger IAR EW for Arm 8.40.1 HighTec编译器编译选项--cpu=$ (CFLAGS_CPU_SWITCH_$ (CPU CORE)) --fpu=$ (CFLAGS_FPU_SWITCH_$ (CPU_CORE)) --cpu_mode=$ (CELAGS_$(INSTRUCTION_SET)) --endian=little-Om--debug--header_context--e--silent-lc $(call obj2lst,$@)链接选项-I$(COMPILER_INC)--cpu=$ (CFLAGS_CPU_SWITCH_$ (CPU CORE)) --fpu=$ (CFLAGS_FPU_SWITCH_$ (CPU_CORE)) --cpu_mode=$ (CELAGS_$(INSTRUCTION_SET)) --endian little-g-r-I$(ROOT)/BSW/Os-IGendate-S$(CPPFLAGS_CORE)-I $(call obj2lst,$@)4开发背景目前，汽车上的电子电气架构越来越复杂，并伴随着汽车的电动化、智能化、网联化、共享化，软件的研发在汽车上占比越来越大。

ＧＳＭ温控器产品说明书深圳市威尔海电子有限公司电话：*************传真：*************①安装尺寸：○2连接方法：输出插座电源输入传感器天线芯片向下本产品支持850M，900M ，1800M ，1900M四频通信，适用全球范围通信。

支持插入移动和联通的SIM卡,不能支持CDMA制式的电信卡. 请在使用过程中保持ＳＩＭ有效，欠费或停机都会造成温控器报警不成功．本产品可以邦定三个电话号码作为报警时通知号码.邦定方法:按住M1或M2或M3其中一个需要邦定的按键不放,当相对应的LED闪烁,用需要邦定的电话拨打温控器内SIM卡的号码,等电话拨通后,LED停止闪烁转为长亮就表示邦定成功.取消邦定:按住M1或M2或M3其中一个需要取消邦定的按键3秒以上,当相对应的LED闪烁时松开按键,LED熄灭表示已经取消邦定.自定义短信内容：温控器可以自定义短信内容,当多个温控器邦定同一个号码时可以根据短信内容区分出温控器的编号或位置信息.例如可以设定不同的机器的短信内容为:1号机, 2号机, 办公室,车间等,短信内容编程:按住MES按键不放,当相对应的LED闪烁,用已经邦定的电话将编写好的短信内容发送到温控器内SIM卡的号码, LED停止闪烁转为熄灭表示已经编程成功.这时松开MES按键。

短信内容取消：按住MES按键不放,当相对应的LED闪烁时松开按键即可．超温报警:当温控器发生报警时,温控器发出报警声,并轮流拨打已经邦定的号码,呼叫顺序为M1.M2.M3 .如果被邦定号码在通话中或暂时无法接通,温控器会一直重复轮流拨打已经邦定的号码,直到成功拨通其中一个号码并且对方接听为止,并将报警信息发送到该号码.温控器可以手动终止电话报警,在报警时按POWER,SET,UP,DOWN四个按键其中任意一个按键可以手动停止报警,并停止拨打电话报警.温度查询:在正常状态下,用已经邦定的电话拨打温控器内SIM卡,温控器会主动挂断电话,并把当前温度用短信发送到查询的电话.停电报警:当发生停电时,温控器会自动转为备用电池供电,（第一次使用时请保持通电半小时以上为备用电池充电）。