MAX1266ACEI+中文资料

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I.INTRODUCTIONThe microprocessor-controlled Max Charge MC-612 is the most advancedregulator available. Designed to continual-ly monitor battery voltage and automaticallyoptimize charging, the MC-612 uses up to 12 time and voltage increments to ensure your batteries receive a full charge quickly and safely.The MC-612 lets you choose from a variety of selectablepreset programs to best suit your charging needs. II t s U n i v e r s a l F a c t o r y P r og r a m a l l o w s y o u t o c o n n e c t t h e M C -612 t oy o u r a l t e r n a t o r r i g h t o u t o f t h e b o x .Six additional preset programs support most popular battery types, including stan-dard and deep-cycle flooded batteries, AGM, gel, and Optima (spiral wound) technologies, as well as special settings for systems supplying halogen lighting. An easy-to-use magnetic reed switch delivers quick, precise regulator adjustment.Should your charging system require individualized adjustment, the MC-612 provides additional advanced user-defined programming options.When used with optional alternator and battery temperature sensors, the MC-612 automatically monitors ambient alter-nator and battery temperatures and compensates by adjusting field output to match conditions. Alarm outputs connect to audible or visual alarms to provide warnings of dangerous system conditions .II. SAFETY CONSIDERATIONSBefore installing your MC-612 marine regulator, please take a moment to con-sider these guidelines for safe regulator installation. Failure to work safely could result in personal injury or damage to your electrical system.1.Always disconnect your battery banks and ensure that switches are “OFF”prior to installing your regulator.2.Remove loose-fitting clothing or jewelry, which could become entangled inyour motor or other machinery.3.Wear ANSI-approved safety glasses.4.DO NOT attempt to modify the regulator. Alterations could result in damage to your charging system, and will void your warranty.5.Do not attempt installation if tired or fatigued.6.Ensure the engine has cooled before initiating installation.7.Do not attempt installation while using alcohol or any medication that could impair your judgment or reaction time.8.Always use the right tool for the job. Improper tool use may damage the regulator or your boat, and could result in personal injury.9.Take time to read the manual. Equipment damage and possibleinjuries may result from an incomplete understanding of the installa-tion and operation of the MC-612 regulator. If you are unfamiliar with marine electrical systems, consult with a licensed marine electrician.Max Charge MC-612 Regulator Installation and Operator’s ManualThe following information is essential to the proper operation of your Max Charge regulator. Do not install or operate before review-ing the following:1.POSITIVE BATTERY SENSE WIRE- User supplied -- not in harness. This wire must be connected to the regulatorand to a source of positive battery voltage (see Figure 3 for mounting location) to provide proper regulator operation.The regulator WILL NOT WORK if the sense wire is not connected to the regulator or the voltage source. The Positive BATTERY SENSE WIRE MUST BE FUSED. A 1-amp ATC fuse and holder are included with the regulator and harness.2.GROUNDING- The Model MC-612 must be properly grounded to regulate accurately. The two ground wires locatedin the harness must be securely attached to their terminals and at the alternator’s preferred ground to ensure proper grounding. A grounding cable between the alternator and the system ground is strongly recommended.3.VOLTAGE READINGS- MC-612 digital circuitry is engineered to monitor battery charge state and automaticallycompensate for changes in battery voltage during operation. As a result, it is NOT unusual to see near-constant changes in the regulator’s Battery Voltage display. These voltage changes reflect the regulator’s ability to make precise corrections to optimize charging efficiency based on changes in system loads.5.ELECTRICAL TACHOMETERS- Many factory and aftermarket tachometers require an AC pulse from the alternatorto drive the tachometer. If you are using an electrical tachometer that is being driven off of your alternator's stator pulse, plug the white stator wire into the terminal provided on the regulator, and the tach feed into the Tach Out termi-nal. If you are not using the stator pulse to drive your tachometer, DO NOT plug the stator wire into the regulator's Stator connection.When using the alternator and regulator to drive your tachometer, there is a possibility that you will see surface volt-age creeping in excess of target voltage when batteries are fully charged and there is no load on the system. This occurs as a result of the regulator's effort to provide just enough voltage to keep the tachometer feed activated. This voltage creep can usually be reduced or eliminated by increasing the load on the batteries, ie., turning on a few cabin lights or cabin fans, until the batteries are allowed to accept charging voltage.4.DUAL-OUTPUT OPERATION- When using the MC-612 with a dual-output alternator it is essential that the regulatorsenses the largest battery bank. The positive Battery sense wire must be attached to the alternator output terminal connected to the larger battery bank or at the larger bank. If your system includes a large house battery and a smaller starting battery, there is the possibility that the smaller battery may see excess surface voltage during charging.5.ALTERNATOR & BATTERY TEMPERATURE SENSORS(optional)- Alternator Temperature Sensor monitors forover-temperature conditions at the alternator. If alternator temperatures outside of safe limits are detected, the regu-lator will reduce alternator output to 50% and will activate an alarm circuit. NOTE:This option is not intended to be used as part of regular operation. If circuit is activated, inspect and repair the system immediately. Optional Battery temperature sensing compensates for above- or below-normal battery temperatures by automatically adjusting charg-ing voltage. It is not unusual to see charging voltage rise safely above normal levels when battery temperatures are below 26°(C) or drop when temperatures exceed 26°(C).6.MAGNETIC REED SWITCH- Not all magnets are alike. You may find that one magnet will activate the reed switchwith little effort, while another similar magnet may require a bit of maneuvering to find the switch’s “sweet spot.” If you have difficulty adjusting program modes, be sure to check for the dot at the top of the LED between the second and third display digits to ensure that you are activating the switch.Figure1- Regulator wiring attachment. Figure3- Regulator terminal layout.Secure the 3/8" copper probe to a clean negative (-) battery terminal (seeFigure 6). The 20' leads may be shortened or extended, if needed. Note: An improp-erly installed or corroded battery terminal may generate heat and severely diminish Figure4- Proper attachment of optional battery and alter-nator temp sensors at the regulator.Figure5- Mounting temp sensor mid-case on small case alternator.Figure6- Mounting temperature sen-sor on battery negative terminal post. ALARM OUTPUTAlarm Output (Dash Lamp)Figure 8- Normal (short) display.PRG-3PRG-4PRG-5PRG-6PRG-7Gel Absorbed Optima Standard Halogen Cell Glass Spiral Flooded Voltage Mat (AGM)Wound Lead Acid Sensitive 45456060Figure 11- Preset program values. Voltages shown may vary by +/-3% from values shown. Caution:Some battery technologies may be damaged by equalization voltage. Contact your battery manufacturer for specific requirements regarding equalization.Figure 10- Preset program codes.Figure 9- Location of magnetic reed switch. Long display, preset program-ming and advanced programming are accessed by activating switch.Note:Reed switch is potted between left side of display and the edge of the circuit board.Switch activation is indicated by lit dot between second and third LEDs.VII. ADVANCEDPROGRAMMINGAdvanced programming (AP) provides user-adjustable program customiza-tion. Any changes in AP will be based on the previously-set battery program.Resetting the basic battery program will automatically clear any advanced programming settings. T o access:1.With regulator in Long Displaymode, AA C T I V A T E -H O L D until the “Pro” display code appears.R E L E A S E . The “PrA” displaycode will appear.(CC A U T I O N :If the switch is held too long, the regulator will return to the preset program adjustment mode). Once in advanced program ming modes (see Figure 15). Start Delay - PrA Mode 2decreased in duration. To adjust:1.A C T I V A T E -H O L D R E L E A S E2.begin to rise. RR E L E A S E and wait for “DLc” display. R R E -A C T I V A T E and H H O L D until desired value is met. R R E L E A S E .Compensation Limit - PrA Mode 3When equipped with optional Battery Temperature Sensor, the MC-612 will automatically adjust charging voltage to compensate for battery temperature. In default mode, the regulator is limited to maximum compensat-ed voltage of 14.8 volts to mini-mize the likelihood of over-volt-age conditions.Compensation Limit allows the user to advance or decrease maximum compensated voltage to suit specific charging system needs.Figure 15- Advanced Programming (PrA).Long DisplayTo access the Long Display, aa c t i v a t e -r e l e a s e switch with the magnetic programming tool while the Short Display is cycling.The numeric LED return to the beginning of the cycle. The long display will begin with the same elements shown in Figure 8.Additional information, as detailed in Figure 13, will follow.The display will scroll throught the long program once, before returning to the short display.Advisory CodesDescriptions for these codes can be found in Figure 14. To reset advisory codes, access the Advanced Programming mode as described at the beginning of Section VIII. AP mode will cycle three times and return to normal mode. Codes will auto-matically reset when AP mode is complete.Figure 12- Charge stage codes as seen in Long Display.Figure 13- Long Display (LD) attributes as displayed on digital numeric readout.C O D E 001 -Factory use only.C O D E 002 -Factory use only.C ODE 010 -Wire short at battery #1 tempera-ture sensing terminal.C ODE 022-Alternator exceeding recommended temperature limits.C O D E 024 -Factory use only.C O D E 030-Voltage too low at battery.Figure 16- IndicatesCompensation Limit mode.Figure17- Voltage adjust-ment. Bulk Voltage shown.Figure18- Time adjustment. Absorption time shown.Figure19- Amp Manager mode.Figure20- EQ voltage mode. Figure21- EQ time mode.With the ignition in the ON position (engine not running), check for voltage Red/BlackBrown/BlackBlue/BlackFigure 23- Inserting voltmeter probes.Figure 22- Field Threshold adjustment. Bulk toAbsorption display is shown.Figure 22- Field Threshold adjustment. Field to Float display is shown.nator. This test eliminates both the regulator and the harness, making it easier to isolate your investigation to the alternator. CAU-TION: Ensure that all voltage sensitive equipment is turned off prior to starting the engine. Voltage is unregulated during this test R Bl Figure 24- Jumping power wire to field.Suggested Wiring Options (Single/Dual Outputs)Suggested Wiring Options (Continued)- 11 -Max Charge MC-612 Quick Installation Instructions The MC-612 can be installed with very little difficulty if installation instructions are followed carefully. If you are unaccustomed to marine electrical installations, we recommend a licensed marine electrician. See Page 2 before starting. To install:1.Mount the regulator in a dry, well-ventilated location, well away from hoses and exhaust manifolds which may cause dam-。

GP1266 IAX2电话使用手册目录1.产品介绍 (4)2.规格与特性 (4)2.1.硬件特性 (4)2.2.软件特性 (5)2.3.协议、标准 (6)2.4.电器指标 (6)2.5.外形尺寸 (7)2.6.使用环境 (7)3.安装 (7)3.1.包装物品清单 (7)3.2.连接电话 (7)4.GP1266话机外形 (8)4.1.按键示意 (8)4.2.按键功能说明 (9)4.3.LED指示灯功能说明 (10)5.配置指南 (10)5.1.使用电话按键配置话机 (10)5.1.1.键盘操作 (10)5.1.2.查看当前系统信息 (11)5.1.3.网络设置 (12)5.1.4.语音设置 (12)5.1.5.协议设置 (13)5.1.6.呼叫设置 (14)5.1.7.系统设置 (14)5.2.通过Web页面配置话机 (15)5.2.1.网络设置 (15)5.2.2.语音设置 (17)5.2.3.协议设置 (18)5.2.4.呼叫设置 (19)5.2.5.系统设置 (21)5.2.6.设置电话簿 (22)5.2.7.设置拨号规则 (23)6.基本操作 (24)6.1.呼叫 (24)6.1.1.摘机/挂机/免提状态切换 (24)6.1.2.直接拨号 (24)6.1.3.重拨 (25)6.1.4.查询通话记录拨号 (25)6.1.5.查询电话本拨号 (25)6.1.6.快速拨号 (25)6.2.接听 (26)6.2.1.接听来电 (26)6.2.2.呼叫保持 (26)6.2.3.接听等待中的来电 (26)6.2.4.恢复接听 (26)6.3.呼叫前转(Blind Transfer) (26)6.4.呼叫转移(Forward) (27)6.4.1.呼叫转移号码 (27)6.4.2.无条件转移 (27)6.4.3.遇忙转移 (27)6.4.4.无应答转移 (27)6.5.自动应答(Auto Answer) (28)6.6.静音 (28)6.7.免打扰 (28)6.8.查看留言 (28)6.9.保存及删除通话记录 (28)6.10.维护电话本 (29)6.10.1.保存电话本 (29)6.8.2.增加电话本条目 (30)6.8.3修改电话本条目 (30)6.8.4删除特定电话本条目 (31)6.8.5删除所有电话本条目 (31)7.软件升级 (32)7.1手工升级 (32)7.1.1.选定升级类别 (32)7.1.2.定位升级文件 (32)7.1.3.开始升级 (32)8.恢复与保存出厂设置 (33)8.1恢复出厂设置 (33)8.2保存出厂设置 (33)1. 产品介绍IP 是网际互联网协议（Internet Protocol）的简称，IP 电话是利用IP协议的分组数据包进行语音的传送。

BALANZA ELECTRONICA DE SOLO PESO CON PROTECCION IP67MANUAL DE USUARIOEste equipo no puede ser utilizado en actividades mercantiles ni sanitariasArticulo 2.2.1.7.14.3 Decreto 1074 de 2015Ver 5. 2018-031. Características∙Protección contra polvo y agua grado IP67∙Doble display tipo LED rojo, de alta visibilidad∙Plato en acero inoxidable de 19 x 23cm∙Alarma de protección por sobrecarga∙Calibración y configuración por teclado∙Función de alarma de pesaje∙Función de conteo ( Deshabilitada )∙Indicación y alarma de batería baja∙Función de auto-apagado∙Carcasa en acero inoxidable∙Con batería recargable de 6V 4Ah y adaptador de voltaje incorporado para la recarga.∙Duración de la batería: 60 horas de autonomía∙Temperatura de operación: 0 a 40 Cº∙Sistema de tara para descontar recipiente hasta del 100%∙Voltaje de carga de 110VAC/60Hz∙Capacidades disponibles:MODELO ALAXKA3kg ALAXKA7.5kgALAXKA15kgALAXKA30kgMax. Capacidad 3kg 7.5kg 15kg 30kg Min. Capacidad 4g 10g 20g 40g Escala deverificación (e) 1g 2g 5g 10g Escala devisualización (d) 0.2g 0.5g 1g 2g Clase IIINOTA: Algunas de las características operativas, pueden variar dependiendo de la versión2. Descripción del panel y de indicacionesTecladoSeñales3. Preparación del equipo1. Instalacióna) La balanza debe ser usada en áreas libres de corrientes excesivas de aire, ambientes corrosivos, vibraciones, temperaturas excesivas o humedad extrema. NOTA: El grado de protección IP67 de la balanza ALAXKA permite: “protección total contra entrada de polvo -estanco al polvo- (IP6X)”; y “protección contra chor ros de agua a baja presión en cualquier dirección (IPX7)“. Según EN 60 529 e IEC 529.b) La balanza debe estar instalada sobre una superficie firme y bien nivelada.c) Ningún objeto debe estar en contacto con el plato, excepto la carga a pesar.2. Recomendaciones de usoa) No operar la balanza en superficies desniveladas, cerca de ventanas o puertas abiertas que causen cambios bruscos de temperatura, cerca de ventiladores, cerca de equipos que causen vibraciones o expuesto a campos electromagnéticos fuertes.b) Si el equipo está conectado a una toma eléctrica que tenga fluctuaciones de voltaje mayores al 10% se recomienda el uso de un estabilizador de voltaje.c) A la toma eléctrica donde se conecta la balanza no deben conectarse otros de gran consumo como motores, refrigeradores, cortadoras etc.d) No depositar sobre el plato un peso superior a la capacidad máxima.e) Mantener limpio el teclado. Utilizar un paño seco (o con un producto de limpieza adecuado) para limpiar las partes del equipo. No usar chorros fuertes de agua.f) Utilizar el adaptador de voltaje original. Se debe utilizar únicamente para recargar la batería.c) Ahora se visualiza CAL 1, Presione la tecla repetidamente para elegir1, o 3 (1 = Ajuste de peso en un punto, 3 = Ajuste de peso en tres puntos.) presionepara confirmar.3. Ajuste de pesoa) Mediante el software:Oprima simultáneamente durante 3 segundos las teclas,ypara encender la Balanza, luego de encender la Balanza y haber tomado cero [ 0], oprima simultáneamente durante 3 segundos las teclas,y, seguidamente ingresara al modo de calibración.b)Mediante el Hardware:Luego de encender la balanza y haber tomado el cero [0], retire una tapa que se encuentra asegurada por dos tornillos en la parte inferior de la balanza, luego realice la unión de los dos contactos que allí se encuentran hasta que en el display se muestre la palabra [SP XX ],donde XX es la capacidad máxima de la balanza. b) Presione la teclarepetidamente para elegir 0.75, 1.5, 3.0, 7.5, 15, 30(que significa la capacidad máxima del equipo 0.75, 1.5, 3,0, 7,5, 15, 30 kg), cuando se muestre la capacidad requerida pulse para confirmar;seguidamente ingresará al modo CAL.1. Ajuste de peso en un punto (CAL 1).a) Cuando se muestre [LS---- ] en el display presione para ajustar el cero, luego la balanza realizara un conteo regresivo de 5 segundos, en estemomento no debe haber ningún peso en el plato.b) Terminado el conteo se visualizara en el display [H2 ], coloque sobre la balanza las dos terceras partes de la capacidad máxima, y presione luego la balanza realizara un conteo regresivo de 5 segundos.Ejemplo: Capacidad Máxima: 15kg; Peso a colocar: 10kgc) Automáticamente la balanza se reiniciara finalizando el proceso de ajuste y volviendo a modo pesaje normal, retire el peso del plato para que la balanza pueda tomar cero correctamente.4.2 Ajuste de peso en tres puntos (CAL 3).a) Cuando se muestre [LS---- ] en el display presione para ajustar el cero, luego la balanza realizara un conteo regresivo de 5 segundos, en este momento no debe haber ningún peso en el plato.b) Terminado el conteo se visualizara en el display [H1 ---- ], coloque sobre labalanza la tercera parte de la capacidad máxima, y presione , luego la balanza realizara un conteo regresivo de 5 segundos.Ejemplo: Capacidad Máxima: 15kg; Peso a colocar: 5kgc) Terminado el conteo se visualizara en el display [H2----], coloque sobre labalanza las dos terceras partes de la capacidad máxima, y presione luego la balanza realizara un conteo regresivo de 5 segundos.Ejemplo: Capacidad Máxima: 15kg; Peso a colocar: 10kgd) Por último se visualizara en el display [H3 --- ], coloque sobre la balanza la capacidad máxima, y presione luego la balanza realizara un conteo regresivo de 5 segundos.Ejemplo: Capacidad Máxima: 15kg; Peso a colocar: 15kge) Automáticamente la balanza se reiniciara finalizando el proceso de ajuste y volviendo a modo pesaje normal, retire el peso del plato para que la balanza pueda tomar cero correctamente.5. Modo de ConfiguraciónEstando encendida la balanza y luego de haber tomado el cero, presionar durante 5 segundos las teclas y al mismo tiempo.Estando en modo configuración utilice la tecla para elegir y pulse la teclapara confirmar. Estando en este modo los parámetros que usted puede configurar son:a) PRE X: La división de escala.∙Pre 0 = Precisión baja∙Pre 1 = Precisión media∙Pre 2 = Precisión normal∙Pre3= Alta precisiónb) UNT X: La unidad de peso en la que desea trabajar. Este parámetro también puede ser configurado en modo peso manteniendo pulsada la tecla por 5 segundos.∙UNT 0 = Significa ( g )∙UNT 1 = Significa ( kg )∙UNT 2 = Significa ( lb )c) BRT X: La intensidad del display tipo LED∙BRT 1 : Alta∙BRT 2 : Media∙BRT 3 : Bajad) ZER X: El cero automático en el momento de encender la balanza∙( 0 a 6 divisiones )e) DIS X: La luz de respaldo trasera (Versión LCD)∙DIS N : Apagado∙DIS Y : Encendidof) FIT X: La estabilidad de la balanza∙( 0 a 3 ) siendo 0 la más rápida y 3 la más lentag) SAV X: función de ahorro de energía∙SAV 0 : Des habilitada∙SAV 1 : Activa∙SAV 2: Auto-apagado después de 10 minutosh) SPD X: Velocidad de visualización∙SPD 0 : Lenta∙SPD 1 : Rápidai) DRL X: Estabilidad∙(0 a 4) siendo 4 la más alta.6. Modo de operación.6.1. Encendido y apagado del equipo.Encender la balanza manteniendo presionada por dos segundos la tecla que se encuentra en el panel frontal de la balanza. El display mostrará todos sus segmentos encendidos por un momento luego refleja la versión de la balanza SP X.X y por ultimo marcará cero [ 0 ] indicando que ya se puede comenzar a pesar.Para apagar la balanza se debe presionar la tecla .NOTA: Después de estabilizado el peso de la balanza durante 10 minutos, la balanza se auto apagara.6.2. Alimentación y uso de la batería.La balanza está diseñada para trabajar con una batería recargable interna de 6V, 4AH. El tiempo de autonomía es de aproximadamente 40 horas.En el panel frontal de la balanza se encuentra un indicador de carga de la batería el cual refleja si la batería tiene un % alto, medio o bajo de carga, si el led está en el nivel bajo se requiere poner a cargar la balanza. Para esto se debe conectar el adaptador de voltaje que viene con la balanza (en la parte de abajo) a una toma eléctrica de 110 VAC y apagar el equipo.Durante el proceso de carga de la balanza los led de indicación de la batería estarán intermitentes.Nota: Después de 40 segundos que la balanza este indicando [0.000], el ahorrador de batería se activara, mostrando en el display [o].6.3. Cero de la balanzaAntes de poner en cero la balanza es necesario verificar que el valor de peso en el display sea estable y que la balanza no tenga ningún pegue.Para que la balanza tome ceros es necesario presionar la tecla . La balanza pitará y pondrá el display en cero. La señal de cero se iluminará.6.4. Tara de la balanzaPara descontar un peso (tarar) es necesario presionar la tecla y la señal de tara se encenderá. Para que la balanza tome tara es necesario que el peso sea estable.Para borrar la tara se debe quitar el peso y presionar nuevamente .NOTA: Puede hacer taras consecutivas hasta la capacidad máxima6.5. Selección de pesoEstando encendida la balanza y luego de haber tomado el cero, presionar durante 5 segundos las teclas y al mismo tiempo.Estando en este modo utilice la tecla para confirmar, la tecla para cambiar de dígito y la tecla para cambiar el valor del dígito.a) Luego de haber ingresado a este modo en el display le visualizara la palabra –RANG – lo que significa que debe ingresar los valores de los rangos que va a trabajar.b) Presione e ingrese el valor del rango bajo ( Under ), tenga en cuenta la unidad de pesaje que está trabajando para ingresar el valor.c) Ingrese el valor del rango alto ( Over ), en la parte de visualización el led le indica cual es el rango que está ingresando.d) Luego de confirmar el ultimo valor la balanza se reiniciará, y los led de visualización se encenderán indicando en que rango se encuentra el producto que esta sobre el plato de la balanza.NOTA: Para deshabilitar esta función los valores de los rangos deben ser cero.GarantíaLa garantía de la balanza ALAXKA es de un (1) año a partir de la fecha de compra y cubre defectos de fabricación del equipo.La garantía se pierde en cualquiera de los siguientes casos:∙Por mal trato evidente, uso inadecuado o aplicación incorrecta∙Sobrecarga de peso en el plato.∙Sobrecarga eléctrica y/o picos de voltaje.∙Exceso de humedad, temperatura.∙Insectos o roedores que ocasionen daños al equipo.∙Rotura de los sellos de garantía.La batería tiene garantía limitada a 30 días.Para solicitar la garantía del equipo es necesario diligenciar el siguiente formato en el momento de laGarantíaLa garantía de la balanza ALAXKA es de un (1) año a partir de la fecha de compra y cubre defectos de fabricación del equipo.La garantía se pierde en cualquiera de los siguientes casos:∙Por mal trato evidente, uso inadecuado o aplicación incorrecta∙Sobrecarga de peso en el plato.∙Sobrecarga eléctrica y/o picos de voltaje.∙Exceso de humedad, temperatura.∙Insectos o roedores que ocasionen daños al equipo.∙Rotura de los sellos de garantía.La batería tiene garantía limitada a 30 días.Para solicitar la garantía del equipo es necesario diligenciar el siguiente formato en el momento de la。

Shenzhen EAI Technology Co.,Ltd.DOC#:01.13.000100 X2DATA SHEETCONTENTS1PRODUCT OVERVIEW (1)1.1Product Features (1)1.2Applications (1)1.3Installation and Dimensions (1)2SPECIFICATIONS (2)2.1Performance Parameter (2)2.2Electrical Parameter (3)2.3Interface Definition (3)2.4Data Communication (3)2.5Motor Control (4)2.6Optical Characteristic (4)2.7Polar Coordinate System Definition (4)2.8Others (5)3DEVELOPMENT AND SUPPORT (5)4REVISE (6)1 PRODUCT OVERVIEWYDLIDAR X2 is a 360 degrees 2D LiDAR (hereinafter referred to as X2) developed by EAI team. Based on the principle of Triangulation, it is equipped with related optics, electricity, and algorithm design to achieve high-frequency and high-precision distance measurement. The mechanical structure rotates 360 degrees to continuously output the angle information as well as the point cloud data of the scanning environment while ranging.1.1 Product Features➢360 degrees scan ranging➢High accuracy, stable performance➢Wide measuring range➢Strong resistance to ambient light interference➢Low power consumption, small size, stable performance and long service life➢Class I eye safety➢Motor speed adjustable, the proposed speed is 6Hz➢Ranging frequency up to 3kHz1.2 Applications➢Robot navigation and obstacle avoidance➢Robot ROS teaching and research➢Regional security➢Environmental scanning and 3D reconstruction➢Navigation and obstacle avoidance of home robots/ robot vacuum cleaners1.3 Installation and DimensionsFIG 1 YDLIDAR X2 FRONT STRUCTURE SIZEFIG 2 YDLIDAR X2 MECHANICAL DIMENSIONS2 SPECIFICATIONS2.1 Performance ParameterCHART 1 YDLIDAR X2 PERFORMANCE PARAMETERNote 1: It is factory FQC standard value, 80% reflectivity material object.Note 2: The relative error value indicates the accuracy of the Lidar measurement. Relative error (mean value) = (average measured distance-actual distance)/actual distance *100%, sample size: 100pcs.Note 3: Lidar is a precision device, please avoid using Lidar under high or low temperature or strong vibration situation, the relative error parameter index will be relatively larger, and it may exceed the typical value.2.2 Electrical ParameterCHART 2 YDLIDAR X2 ELECTRICAL PARAMETERItem Min Typical Max Unit RemarksSupply voltage 4.8 5 5.2 V Excessive voltage might damage the Lidar while low affect normal performance Supply current 1000 / / mA Instantaneous peak current atstart-up Working current/300500mASystem work, motor rotation2.3 Interface DefinitionX2 provides MX1.25-4P receptacle to realize power and data communication function.FIG 3 YDLIDAR X2 INTERFACESCHART 3 YDLIDAR X2 INTERFACE DEFINITIONPin Type Description Defults Range RemarksVCC Power supply Positive 5V 4.8V-5.2V/Tx Output System serial portoutput/ / Data stream: LiDAR PeripheralsGND Power supply Negative 0V 0V /M_CTRInputMotor speed controlterminal1.8V0V-3.3VVoltage speed regulation or PWM speed regulation2.4 Data CommunicationWith a 3.3V level serial port (UART), users can connect the external system and the product through the physical interface. After that, you can obtain the real-time scanned point cloud data, device information as well as device status. The communication protocol of parameters are as follows:CHART 4 YDLIDAR X2 SERIAL SPECIFICATIONItem Min Typical Max Unit RemarksBaud rate / 115200 / bps 8-bit data bit,1 stop bit, noparityHigh signal level 2.4 3.3 3.5 V / Low signal level0.6V/VCCTx GND M_CTR2.5 Motor ControlX2 has its own motor driver with motor speed control function. The peripheral can control the X2 motor by inputting control signals through the M_CTR pin in the interface.M_CTR is the motor speed control signal, which can be adjusted by voltage and can also be debugged by PWM wave. The higher the voltage/the greater the PWM duty cycle, the higher the motor speed.Among them, the PWM signal of M_CTR has the following requirements:CHART 5 YDLIDAR X2 MOTOR PWM SIGNAL SPECIFICATION2.6 Optical CharacteristicX2 uses an infrared laser that meets FDA Class I eye safety standards. The laser and optical lens finish the transmission and reception of the laser signal to achieve high-frequency ranging while working. To ensure system ranging performance, please keep the laser and optical lens clean. The detailed optical parameters are as follows:CHART 6 YDLIDAR X2 LASER OPTICAL PARAMETERS2.7 Polar Coordinate System DefinitionIn order to facilitate secondary development, X2 internally defines a polar coordinate system. The polar coordinates of the system take the center of the rotating core of X2 as the pole, and the specified Angle is positive clockwise. The zero Angle is located directly in front of the X2 motor. Due to individual differences, there is a deviation of plus or minus 3 degrees, as shown in the figure:FIG 4 YDLIDAR X2 POLAR COORDINATE SYSTEM DEFINITION2.8 OthersCHART 7 YDLIDAR X2 OTHERSItem Min Typical Max Unit Remarks Operating temperature 0 20 40 ℃ No condensation Storage temperature -10 / 60 ℃ With package Lighting environment 0 550 2000 Lux For reference onlyweight/126/gN.W.3 DEVELOPMENT AND SUPPORTX2 provides a wealth of software interfaces, which can realize the motor enablingcontrol, speed control, range unit enabling control and output control of the system. On this basis, users can also implement the power control and scan control purpose.Also, the 3D model of X2 is disclosed. YDLIDAR provides the graphics debugging Workstation under Windows, as well as the corresponding SDK and ROS development kit to users, which could be downloaded from our website: https:///.In order to facilitate user s’ development, X2 development manual, SDK development manual and ROS user manual are also provided. Please download them from our website.Pole Pole axis0°~360°,clockwise is positiveZero direction4 REVISE。

MAX266中文数据手册MAX266/265中文数据手册By Hi_Cracker @whu引脚电阻可编程通用高效滤波器-----MAX266/265General Description和MAX265是高效的容滤波器，专门设计用于需要高精度滤波的应用MAX266场合。

内置了两个独立的滤波模块，可以配置成低通，高通，带通，带阻，全通滤波器。

中心频率或者截止频率的控制需要外接电阻以及6 Pin-Strapped 的输入特性来编程实现，然而，Q值仅用电阻连接实现。

各种各样类型的滤波器都可以实现（巴特沃斯，切比雪夫，椭圆滤波器等等）。

内部集成了两个运算放大器。

MAX265可以将中心/截止频率可以最高调到40Khz，然而，MAX266，通过使用一个低范围的fclk/fo比例系数，可以将fos 调到140Khz。

4MHZ系统时钟，可以通过一个晶振或是额外的源获得。

滤波器的操作电压为从±2.37v到±6.3v或者+5V的单电源供电。

Application：声纳电子设备Anti-Aliasing 滤波器数字信号处理震动音频分析远程通信测试仪器Features滤波器参数设置软件化256bit的频率控制字电阻调整Q值和fo140Khz频率调节范围±5V或者单电源﹢5V操作电压Introduction每个MAX266/265都包含的两个可配置滤波器模块已经显示在数据手册前面的功能框图上。

fclk/fo编程输入（F0-F5）被两个滤波模块共用,然而，每个部分的fo仍然受到各自外接电阻的独立调节。

各个模块的的Q值也是受到各自的外接电阻的独立调节的。

MAX266使用比MAX265更低范围的取样比率（fclk/fo），这样就可以产生更高的信号带宽以及fo的可编程范围。

降低fclk/fo产生的影响主要就是比MAX265的滤波器参数的连续性稍微差了一些，但是这些不同可以通过使用图23所示的图形或是美信得滤波器软件来补偿。

General DescriptionThe MAX811/MAX812 are low-power microprocessor (μP) supervisory circuits used to monitor power supplies in μP and digital systems. They provide excellent circuit reliability and low cost by eliminating external compo-nents and adjustments when used with 5Vpowered or 3V-powered circuits. The MAX811/MAX812 also provide a debounced manual reset input.These devices perform a single function: They assert a reset signal whenever the V CC supply voltage falls below a preset threshold, keeping it asserted for at least 140ms after V CC has risen above the reset threshold. The only difference between the two devices is that the MAX811 has an active-low RESET output (which is guaranteed to be in the correct state for V CC down to 1V), while the MAX812 has an active-high RESET output. The reset comparator is designed to ignore fast transients on V CC. Reset thresholds are available for operation with a variety of supply voltages.Low supply current makes the MAX811/MAX812 ideal for use in portable equipment. The devices come in a 4-pin SOT143 package.Applications●Computers●Controllers●Intelligent Instruments●Critical μP and μC Power Monitoring●Portable/Battery-Powered Equipment Benefits and Features●Integrated Voltage Monitor Increases SystemRobustness with Added Manual Reset• Precision Monitoring of 3V, 3.3V, and 5VPower-Supply Voltages• 140ms Min Power-On-Reset Pulse Width• RESET Output (MAX811), RESET Output(MAX812)• Guaranteed Over Temperature• Guaranteed RESET Valid to V CC = 1V (MAX811)• Power-Supply Transient Immunity●Saves Board Space• No External Components• 4-Pin SOT143 Package●Low Power Consumption Simplifies Power-SupplyRequirements• 6μA Supply Current*This part offers a choice of five different reset threshold voltages. Select the letter corresponding to the desired nominal reset threshold voltage, and insert it into the blank to complete the part number.Devices are available in both leaded and lead(Pb)-free packaging. Specify lead-free by replacing “-T” with “+T” when ordering.RESET THRESHOLDSUFFIX VOLTAGE (V)L 4.63M 4.38T 3.08S 2.93R2.63PART*TEMP RANGE PIN-PACKAGEMAX811_EUS-T-40°C to +85°C 4 SOT143MAX812_EUS-T-40°C to +85°C 4 SOT1431243V CCMR(RESET) RESETGNDMAX811MAX812SOT143TOP VIEW( ) ARE FOR MAX812NOTE: SEE PACKAGE INFORMATION FOR MARKING INFORMATION. MAX811/MAX8124-Pin μP Voltage Monitorswith Manual Reset InputPin ConfigurationOrdering InformationClick here for production status of specific part numbers.19-0411; Rev 6; 5/18Terminal Voltage (with respect to GND)V CC.....................................................................-0.3V to 6.0V All Other Inputs .....................................-0.3V to (V CC + 0.3V) Input Current, V CC, MR......................................................20mA Output Current, RESET or RESET ....................................20mA Continuous Power Dissipation (T A = +70°C)SOT143 (derate 4mW/°C above +70°C) .....................320mW Operating Temperature Range ...........................-40°C to +85°C Junction Temperature ......................................................+150°C Storage Temperature Range ............................-65°C to +160°C Lead Temperature (soldering, 10sec) .............................+300°C(V CC = 5V for L/M versions, V CC = 3.3V for T/S versions, V CC = 3V for R version, T A = -40°C to +85°C, unless otherwise noted. Typical values are at T A = +25°C.) (Note 1)PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITSOperating Voltage Range V CC T A = 0°C to +70°C 1.0 5.5V T A = -40°C to +85°C 1.2Supply Current I CC MAX81_L/M, V CC = 5.5V, I OUT = 0615µA MAX81_R/S/T, V CC = 3.6V, I OUT = 0 2.710Reset Threshold V TH MAX81_LT A = +25°C 4.54 4.63 4.72V T A = -40°C to +85°C 4.50 4.75MAX81_MT A = +25°C 4.30 4.38 4.46T A = -40°C to +85°C 4.25 4.50MAX81_TT A = +25°C 3.03 3.08 3.14T A = -40°C to +85°C 3.00 3.15MAX81_ST A = +25°C 2.88 2.93 2.98T A = -40°C to +85°C 2.85 3.00MAX81_RT A = +25°C 2.58 2.63 2.68T A = -40°C to +85°C 2.55 2.70Reset Threshold Tempco30ppm/°CV CC to Reset Delay (Note 2)V OD = 125mV, MAX81_L/M40µs V OD = 125mV, MAX81_R/S/T20Reset Active Timeout Period t RP V CC = V TH(MAX)140560ms MR Minimum Pulse Width t MR10µs MR Glitch Immunity (Note 3)100ns MR to Reset PropagationDelay (Note 2)t MD0.5µsMR Input Threshold V IHV CC > V TH(MAX), MAX81_L/M2.3V V IL0.8V IHV CC > V TH(MAX), MAX81_R/S/T0.7 x V CCV IL0.25 x V CCMR Pull-Up Resistance102030kΩRESET Output Voltage (MAX812)V OH I SOURCE = 150µA, 1.8V < V CC < V TH(MIN)0.8 x V CCVV OLMAX812R/S/T only, I SINK = 1.2mA,V CC = V TH(MAX)0.3MAX812L/M only, I SINK = 3.2mA,V CC = V TH(MAX)0.4with Manual Reset InputAbsolute Maximum RatingsStresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Electrical Characteristics(V CC = 5V for L/M versions, V CC = 3.3V for T/S versions, V CC = 3V for R version, T A = -40°C to +85°C, unless otherwise noted.Typical values are at T A = +25°C.) (Note 1)Note 1: Production testing done at T A = +25°C, over temperature limits guaranteed by design using six sigma design limits.Note 2: RESET output for MAX811, RESET output for MAX812.Note 3: “Glitches” of 100ns or less typically will not generate a reset pulse.PARAMETERSYMBOLCONDITIONSMINTYPMAX UNITSRESET Output Voltage (MAX811)V OLMAX811R/S/T only, I SINK = 1.2mA, V CC = V TH(MIN)0.3V MAX811L/M only, I SINK = 3.2mA, V CC = V TH(MIN)0.4I SINK = 50µA, V CC > 1.0V0.3V OHMAX811R/S/T only, I SOURCE = 500µA, V CC > V TH(MAX)0.8 x V CC MAX811L/M only, I SOURCE = 800µA, V CC > V TH(MAX)V CC - 1.5with Manual Reset InputElectrical Characteristics (continued)(T A = +25°C, unless otherwise noted.)SUPPLY CURRENT vs. TEMPERATURE(MAX81_L/M)8TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )426-408510-156035190POWER-UP RESET TIMEOUTvs. TEMPERATURE230TEMPERATURE (°C)P O W E R -U P R E S E T T I M E O U T (m s )210200220-408535-1510600POWER-DOWN RESET DELAY vs. TEMPERATURE(MAX81_R/S/T)80100TEMPERATURE (°C)P O W E R -D O W N R E S E T D E L A Y (µs )402060-408510-156035RESET THRESHOLD DEVIATIONvs. TEMPERATURE0.99951.00001.0005M A X 811/12-T O C 6TEMPERATURE (°C)N O R M A L I Z E D T H R E S H O L D (V )0.99850.99800.9990-408535-1510600-4085SUPPLY CURRENT vs. TEMPERATURE(MAX81_R/S/T)2.02.53.0M A X 811/12-T O C 1TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )101.00.5-15601.535POWER-DOWN RESET DELAY vs. TEMPERATURE(MAX81_L/M)200TEMPERATURE (°C)P O W E R -D O W N R E S E T D E L A Y (µs )10050150-408510-156035with Manual Reset InputTypical Operating CharacteristicsDetailed DescriptionReset OutputA microprocessor’s (μP’s) reset input starts the μP in a known state. These μP supervisory circuits assert reset to prevent code execution errors during power-up, power-down, or brownout conditions.RESET is guaranteed to be a logic low for V CC> 1V. Once V CC exceeds the reset threshold, an internal timer keeps RESET low for the reset timeout period; after this interval, RESET goes high.If a brownout condition occurs (V CC dips below the reset threshold), RESET goes low. Any time V CC goes below the reset threshold, the internal timer resets to zero, and RESET goes low. The internal timer starts after V CC returns above the reset threshold, and RESET remains low for the reset timeout period.The manual reset input (MR) can also initiate a reset. See the Manual Reset Input section.The MAX812 has an active-high RESET output that is the inverse of the MAX811’s RESET output.Manual Reset InputMany μP-based products require manual reset capabil-ity, allowing the operator, a test technician, or external logic circuitry to initiate a reset. A logic low on MR asserts reset. Reset remains asserted while MR is low, and for the Reset Active Timeout Period (t RP) after MR returns high. This input has an internal 20kΩ pull-up resistor, so it can be left open if it is not used. MR can be driven with TTL or CMOS-logic levels, or with open-drain/collector outputs. Connect a normally open momentary switch from MR to GND to create a manual-reset function; external debounce circuitry is not required. If MR is driven from long cables or if the device is used in a noisy environment, connecting a 0.1μF capacitor from MR to ground provides additional noise immunity.Reset Threshold AccuracyThe MAX811/MAX812 are ideal for systems using a 5V ±5% or 3V ±5% power supply with ICs specified for 5V ±10% or 3V ±10%, respectively. They are designed to meet worst-case specifications over temperature. The reset is guaranteed to assert after the power supply falls out of regulation, but before power drops below the minimum specified operating voltage range for the system ICs. The thresholds are pre-trimmed and exhibit tight dis-tribution, reducing the range over which an undesirable reset may occur.PINNAME FUNCTION MAX811MAX81211GND Ground2—RESET Active-Low Reset Output. RESET remains low while V CC is below the reset threshold or while MR is held low. RESET remains low for the Reset Active Timeout Period (t RP) after the reset conditions are terminated.—2RESET Active-High Reset Output. RESET remains high while V CC is below the reset threshold or while MR is held low. RESET remains high for Reset Active Timeout Period (t RP) after the reset conditions are terminated.33MR Manual Reset Input. A logic low on MR asserts reset. Reset remains asserted as long as MR is low and for 180ms after MR returns high. This active-low input has an internal 20kΩpull-up resistor. It can be driven from a TTL or CMOS-logic line, or shorted to ground with a switch. Leave open if unused.44V CC+5V, +3.3V, or +3V Supply Voltage with Manual Reset InputPin DescriptionApplications InformationNegative-Going V CC TransientsIn addition to issuing a reset to the μP during power-up, power-down, and brownout conditions, the MAX811/ MAX812 are relatively immune to short duration negative-going V CC transients (glitches).Figure 1 shows typical transient durations vs. reset com-parator overdrive, for which the MAX811/MAX812 do not generate a reset pulse. This graph was generated using a negative-going pulse applied to V CC, starting above the actual reset threshold and ending below it by the magnitude indicated (reset comparator overdrive). The graph indicates the typical maximum pulse width a negative-going V CC transient may have without causing a reset pulse to be issued. As the magnitude of the tran-sient increases (goes farther below the reset threshold), the maximum allowable pulse width decreases. Typically, a V CC transient that goes 125mV below the reset thresh-old and lasts 40μs or less (MAX81_L/M) or 20μs or less (MAX81_T/S/R) will not cause a reset pulse to be issued.A 0.1μF capacitor mounted as close as possible to V CC provides additional transient immunity.Ensuring a Valid RESET OutputDown to V CC = 0VWhen V CC falls below 1V, the MAX811 RESET output no longer sinks current—it becomes an open circuit. Therefore, high-impedance CMOS-logic inputs connected to the RESET output can drift to undetermined voltages. This presents no problem in most applications, since most μP and other circuitry is inoperative with V CC below 1V. However, in applications where the RESET output must be valid down to 0V, adding a pulldown resistor to the RESET pin will cause any stray leakage currents to flow to ground, holding RESET low (Figure 2). R1’s value is not critical; 100kΩ is large enough not to load RESET and small enough to pull RESET to ground.A 100kΩ pull-up resistor to V CC is also recommended for the MAX812 if RESET is required to remain valid for V CC < 1V.Figure 1. Maximum Transient Duration without Causing a Reset Pulse vs. Comparator Overdrive Figure 2. RESET Valid to V CC = Ground Circuitwith Manual Reset InputInterfacing to μPs with Bidirectional Reset PinsμPs with bidirectional reset pins (such as the Motorola 68HC11 series) can contend with the MAX811/MAX812 reset outputs. If, for example, the MAX811 RESET output is asserted high and the μP wants to pull it low, indeter -minate logic levels may result. To correct such cases, connect a 4.7kΩ resistor between the MAX811 RESET (or MAX812 RESET) output and the μP reset I/O (Figure 3). Buffer the reset output to other system components.Figure 3. Interfacing to μPs with Bidirectional Reset I/Owith Manual Reset InputChip InformationTRANSISTOR COUNT: 341with Manual Reset Input Package InformationFor the latest package outline information and land patterns (footprints), go to /packages. Note that a “+”, “#”, or “-” in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status.PACKAGE TYPE PACKAGE CODE OUTLINE ND PATTERN NO.4 SOT143U4+121-005290-0183REVISION NUMBERREVISION DATE DESCRIPTIONPAGES CHANGED56/15Updated Benefits and Features and Package Information sections 1, 865/18Updated Absolute Maximum Ratings2Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. The parametric values (min and max limits) shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.with Manual Reset InputRevision HistoryFor pricing, delivery, and ordering information, please visit Maxim Integrated’s online storefront at https:///en/storefront/storefront.html.。

产品特点 DD变频电机技术最佳开门高度设计钢骨一体结构窗垫抗菌防霉技术烘干功能（适用于XQGH80-HB1466、XQGH70-HB1266机型） 规格型号XQGH80-HB1466XQGH70-HB1266XQGH80-B1466XQGH70-B1266电源220V～/50Hz 220V～/50Hz 220V～/50Hz 220V～/50Hz进水水压（MPa）0.03～1.00.03～1.00.03～1.00.03～1.0额定洗涤容量（kg）8787额定脱水容量（kg）8787额定烘干容量（kg）54//额定甩干转速（rpm）1400120014001200洗涤噪音dB（A计权）47.549.147.549.1脱水噪音dB（A计权）62.161.662.161.6能效等级1级1级1级1级外形尺寸(高/深/宽)（mm）1200/680/6001200/600/6001200/680/6001200/600/600空气洗功能（适用于XQGH80-HB1466、XQGH70-HB1266机型）复式平衡环降振技术筒自洁功能抽屉盒设计卡萨帝，是源于意大利灵感的国际高端家电品牌，在意大利语中，“Lacasa”意为“家”，“Arte”意为“艺术”，两者合二为一就是“ Casarte ”，意为“ 家的艺术 ”。

秉持“创艺家电，格调生活”的品牌理念，在“汲取精致生活的灵感，缔造永恒的艺术品质”的核心设计语言下，每一件卡萨帝的产品都在诠释着家电生活艺术化的趋势”。

1.关于本产品的安全注意事项禁止损伤、加工、随意弯曲、挤夹、拧捻、拉拽、捆结电源线及插头。

禁止将重物放置于电源线及插头上。

禁止用潮湿的手接触、插拔电源插头。

电源线、插头损伤或插座插接松动时，请停止使用。

请使用最大安全电流10A以上的独立电源插座。

插座中的接地线端要可靠接地，插座 应为国家3C认证的合格品。

请将电源插头完全插入插座孔中，定期清理插头（ 灰尘堆积及湿气状态下会引起绝 缘不良、火灾等 ）。

Acaia Pearl 用户手册FW 1.0.0053产品3产品介绍3外观介绍4开始使用4适用环境4开 / 关机4去皮4模式切换4单位切换5产品维护与保养5电池充电5电池百分比5重量校正6流速指示灯7模式介绍7模式 1 - 称重模式7模式 2 - 双显示模式（计时/重量）8模式 3 - 手冲自动计时模式8模式 4 - 冲煮把手自动去皮模式9模式 5 - 进阶萃取模式10選項设置14附录14按钮15LED 指示灯16错误代码16其他17产品规格产品介绍感谢您选购我们的咖啡秤。

Acaia Pearl 以最严格的标准设计制造，旨在给您最卓越的咖啡冲煮体验。

首先，请检查包装盒内是否有以下物件：Acaia 咖啡秤 隔热垫USB Type-C 充电线然后，按照“开始使用”章节的说明开始使用咖啡秤。

为了充分发挥 Acaia Pearl 的所有功能，请仔细阅读本使用手册，获悉详细步骤说明、示例以及其他信息。

警告：不当操作本产品可能会导致人身伤害或产品损坏。

外观介绍*注：为了获得最佳性能，请将待称物放在秤盘中央。

秤盘充电 / 低电量指示灯电源屏幕去皮开始使用适用环境开 / 关机去皮切换模式切换单位将咖啡秤放置在一个平稳、无振动的平面上，最好是水平位置。

[按压] 打开咖啡秤。

[双击] 关闭咖啡秤。

[点击] 重量去皮。

[长按] 在模式间进行切换。

* 请查阅“模式介绍”章节，了解更多详情。

[长按] 在单位间进行切换。

产品维护与保养电池充电您可以将 USB Type-C 充電线插入以下任何电源为电池充电：•电脑•输出为 5V/1A 的 USB 壁式充电器•支持 5 伏电压的 USB-C PD 充电器•输出为 5V/1A 的直流车载充电器•电量耗尽后，完全充满电需要 1-2 小时。

请尽量避免让电量完全耗尽后再充电。

应根据需要随时充电。

•充满电的电池可连续工作约 30 个小时。

•若要查看剩余电量，请在咖啡秤关闭时，长按电源鍵直到“电池指示灯”亮起。

AR厂劳力士海使型V3版红字鬼王126600腕表大家好我是小盘威（bmw99169）,致力于为您提供最有态度，有温度，有深度的腕表服务。

表界深似海，我会用我的专业和专注在您玩表的大道上为您一路填坑。

用最公正客观的态度去评价每一块腕表。

今天来聊一聊新款劳力士单红鬼王准确的说，这款腕表应该叫做“劳力士海使型126600腕表”。

我们习惯的叫它为“单红字鬼王”，或者单红使鬼王原因是表盘中下方有一行SEA-DWELLER红字标示，鲜红而明亮，还有至关重要的一点，也是深得小盘喜爱的一点就是，“单红鬼王”的尺寸，在厚度不变的情况下，直径增加到了43mm，壳型更加协调，看起来要“纤薄”不少，完美中和了“鬼王”的硕大和“水鬼”的低调。

至于效果有多好，只能说，谁上手，谁好看！那么本次v3版都升级了哪些我们来往下看AR厂劳力士V3版红字鬼王评测：首先我们整体来测量一下它的外观直径为43mm 厚度为15.1mm 保持与yz一致，再来看一下该腕表表壳采用了进口904精钢打造而成，整体色泽很发白与yz一致，在做工材质方面，目前也只有ar厂是做得最出色的，无论是n厂还是gm厂以及vr厂还是没有办法与ar厂抗衡的。

外圈这里为单向旋转的陶瓷圈口，同时也是AR厂比较擅长的地方，整体雕刻深度比N厂的要深，包括它的宽度以及刻度填充均匀度都要比N厂好，之前给大家介绍过的AR厂劳力士绿水鬼和N厂对比应该有所了解。

颜色呈出偏白色也是比N厂的火候稍微好那么一点点。

然后AR 厂在牙圈细节上也做了升级，之前很多表友跟小盘说过，旋转表圈的时候，感觉牙圈比较锋利，那么这次v3版在牙圈细节上有稍作打磨处理，相比V2版的时候要圆润了一些，旋转表圈同时也不会割手了，同时它的夜明珠也是有所改进的。

以往的版本是胶水粘贴的，现在v3版已经是通过油压方式来镶嵌了，这样会更加的牢固顺便看一下表冠位置雕刻有劳力士的经典皇冠LOGO，立体感十足，保持与yz一致。

排气阀这里大小形状与yz一致，包括它的磨砂色也是对版yz的，只不过在这里ar厂是作为装饰作用而已，没有实际功能，问题也不大本次最大的亮点是盘面上的6点钟位置那一排”SEA-DWELLER’海使型红色字母以及加入了和水鬼一样的日历放大镜，就看这一点红色字母已经和一般潜航者水鬼区分开了。

Reliability, Performance and Integrity.SINCE Maxi-II6-LightWITH METAL HALIDE FIXTURES HOUR RUN TIME WITH LED’S HYDRAULICALL YKEY FEATURES■ SLS Sequenced Light System■ (2) 50 Gallon Polyethylene Fuel Tanks ■ Full Fluid Containment System■ Five-Point Stabilizer System■ Below-the-Frame Forklift Pockets■ Lifting Ring■ Removable Drawbar■ Gull-Wing Style Doors■ External Oil and Engine Coolant DrainMLV6-C1.1MLV6-C1.5T MLV6-I4LE1(Canada Only)Caterpillar / C1.1Caterpillar / C1.5 Turbo Isuzu / 4LE1 Tier 4 Final Tier 4 Final Tier 4 Interim (Canada only)13.322.332.18152012 VStandard - 550 CCA @ 0°F /Optional - 775 CCA @ 0°F only with Arctic PackagesGlow plug cold starting100 gal (378.5 L)N/A103.1 hours106.4 hours 227.7 hours185.2 hours151.5 hours N/A(6) Metal Halide SHO-HD® fixtureN/A1,250N/A135,500 (per lamp) / 813,000 (total lumens)(6) Two LED, 5000°K color temperature32038,500 (per lamp) / 231,000 (total lumens)Sequenced Lighting System (SLS). System automatically turns on lights after engine start and delays engine shutdown toturn off lights first to prevent generator from shutting down while under load.Standard - 120 / 240 VAC automatic voltage regulation60 Hz / 1-phaseStandard - (2) 20 A 120 VAC duplex GFCI outlets(3) 30 A 240 VAC 4-Wire Twist Lock (NEMA L14-30R)(1) 50 A 240 VAC RV (NEMA L14-50R)332.0 in (8,433 mm) or 27' - 8" (8.4 m)*Structure - Six section tubular steel design /Actuation - Hydraulic cylinder /Guide pads - Polyethylene self lubricatingManual winch to raise Balloon Light from installation position to operating positionPower cable encased in Nycoil™ flexible tubingLight bar with fixtures can be rotated 359° and fixtures can be adjusted with tower in lowered position.Adjustable height combination 2 5/16 in. (50.8 mm) ball coupler /3 in. (76.2 mm) lunette ring for pintle hitch /Standard - 2 5/16 in (50.8 mm) ball couplerFrame - Formed, welded steel frame /Axle - Tubular axle with elliptical leaf springs /Tires - ST205/75R 15 radial load range ‘C’ Doors - Stamped steel gull-wing style with lockable latch /Standard features - Fluid Containment System (FCS) holding up to 110% of all on-board fluids /Remote engine oil and coolant drain easily accessible at rear of trailer /Forklift pockets below-the-frame / Lift ring / Tie down rings / Removable tongueStop, turn, tail lights / Side marker lights / Illuminated license plate bracket /Standard - 4-way flat connectorFive-point design - T ongue jack, two retractable side outriggers at front of trailer, two retractable side outriggers at rear of trailer65 MPH (104.6 km/h)3,430 lbs (1,555.8 kg)4,300 lbs (1,950.4 kg)126.9 in (3,223 mm) / 167.3 in (4,249 mm)76.6 in (1,946 mm) / 151.0 in (3,854 mm)105.4 in (2,677 mm) / 332.0 in (8,433 mm) or 27' - 8" (8.4 m)*7 units on a 48' or 53' flatbed*Balloon light only included in raised dimension - balloon light is removed for transportation. **Prime horsepower rating provided by engine manufacturer. ***Prime generator electrical output per Allmand testing. ****See operator’s manual or website for complete warranty details. *****Based on one hour run test fullfuel tank consumption. Allmand has a policy of continuous product improvement and reserves the right to modify its specifications at any time and without prior notice.OPTIONS- Heated fuel / water separator - Radiator cover / Low fuel beacon - Adjustable air vent cover panels - Diesel fired block heater - Dual heavy-duty batteries - LSC With E-Stop PackageArctic Max Package (only available with Arctic Package)- (6) LED Light FixturesLED Package- Heavy-duty battery - Block heater (120 VAC)- Interior work light - Arctic hydraulic fluidArctic PackageMLV6-0617Holdrege, Nebraska 68949P: (800) 562-1373 • F: (308) Reliability, Performance and Integrity.SINCE 1938ackage)Balloon Light features the AirStar Flex diffused lighting system using Allmand™ exclusive bulbs. This system provides reduced glare while still illuminating a large area.AirStar Package- LSC - Light Sensing Commander® automatically starts engine at sunset and shuts down engine at sunrise - programmable- Emergency stop switch on exterior of machineLSC™ with E-Stop Package- Telematics Package- Engine Air Intake Shut-Off Valve - 2 5⁄16 in. (50.8 mm) Bulldog® Coupler - Custom Paint- Skid Mount available on Standard SKUsWhen it comes to managing a jobsite, you want equipment that will not fail you when you need it most. You’re looking for trust and reliability. Allmand ® brings that to your jobsite, with over 75 years of respected experience. Our focus on Service and Support allows users to get the parts, technical service and support they need. Product innovation has helped us develop state-of-the-art towable jobsite equipment, bringing portable light towers, mobile industrial heaters, fl ashing arrow boards, portable light stands, portable air compressors and mobile generators for the construction, mining, oil & gas, and rental markets.WHY ALLMAND ®。

STYCAST® 1266 A/BTwo Component, Low Viscosity, EpoxyEncapsulantKey Feature:Benefit:•Optical clarity •Facilitates visualinspection of protectedcomponents•Low viscosity •Excellent wicking and flowaround parts in tightclearance applications•High impact strength •Enhance long term durability of assemblyProduct Description:STYCAST 1266 A/B is a clear, low viscosity, room temperature curable, epoxy encapsulant and impregnant. It has good moisture resistance, good electrical properties, and good impact strength. STYCAST 1266 A/B adheres well to metals, glass, and plastics.Applications:STYCAST 1266 A./B is designed to readily impregnate windings, to bond lenses and sheets of glass for good visibility, or for display embedments. Instructions For Use:Thoroughly read the information concerning health and safety contained in this bulletin before using. Observe all precautionary statements that appear on the product label and/or contained in individual Material Safety Data Sheets (MSDS).To ensure the long term performance of the potted or encapsulated electrical / electronic assembly, complete cleaning of components and substrates should be performed to remove contamination such as dust, moisture, salt, and oils which can cause electrical failure, poor adhesion or corrosion in an embedded part.Accurately weigh resin and hardener into a clean container in the recommended ratio. Weighing apparatus having an accuracy in proportion to the amounts being weighed should be used.Blend components by hand, using a kneading motion, for 2-3 minutes. Scrape the bottom and sides of the mixing container frequently to produce a uniform mixture. If possible, power mix for an additional 2-3 minutes. Avoid high mixing speeds which could entrap excessive amounts of air or cause overheating of the mixture resulting in reduced working life.To ensure a void-free embedment, vacuum deairing should be used to remove any entrapped air introduced during the mixing operation. Vacuum deair mixture at 1-5 mm mercury. The foam will rise several times the liquid height and then subside. Continue vacuum deairing until most of the bubbling has ceased. This usually requires 3-10 minutes.Pour mixture into cavity or mold. Gentle warming of the mold or assembly reduces the viscosity. This improves the flow of the material into the unit having intricate shapes or tightly packed coils or components. Further vacuum deairing in the mold may be required for critical applications.Properties of Material As Supplied:Property Test Method Unit Value - Part A Value - Part BChemical Type Epoxy AmineAppearance Visual Clear, amber liquid Clear, yellow liquidDensity ASTM-D-792g/cm3 1.16 1.00Brookfield Viscosity ASTM-D-2393 Pa.scP8.58,5000.03535Properties of Material As Mixed:Property TestMethodUnitValueMix Ratio - Amount of Part B per 100 parts of Part A By WeightBy Volume 28 33Working Life (100 g @ 25°C) ERF 13-70 minutes 30Density ASTM-D-792g/cm3 1.12Brookfield Viscosity ASTM-D-2393 Pa.scP 0.65 650“Our service engineers are available to help purchasers obtain best results from our products, and recommendations are based on tests and information believed to be reliable. However, we have no control over the conditions under which our products are transported to, stored, handled, or used by purchasers and, in any event, all recommendations and sales are made on condition that we will not be held liable for any damages resulting from their use. No representative of ours has any authority to waive or change this provision. We also expect purchasers to use our products in accordance with the guiding principles of the Chemical Manufacturers Association’s Responsible Care® program.”Cure Schedule:Cure at any one of the recommended cure schedules. For optimum performance, follow the initial cure with a post cure of 2 hours at 100°C. Alternate cure schedules may also be possible. Contact your Emerson & Cuming Technical Representative for further information. This product generates moderate heat during cure. No adverse exotherm effects are obtained when cured at 65°C in masses up to approximately 100 grams. Applications requiring more than 100 grams of materialshould be cured at the lowest recommended temperatureto prevent the possibility of adverse exotherm effects.Temperature Cure Time°C Time(hours)25 8 – 1665 1 - 2Properties of Material After Application:Property TestMethodUnitValue Hardness ASTM-D-2240ShoreD75Flexural Strength ASTM-D-790 mPapsi138 20,000Compressive Strength ASTM-D-695 mPapsi69 10,000Tensile Strength ASTM-D-412 mPapsi41 6,000Temperature Range of Use °C -65 to +105Dielectric Strength ASTM-D-149 kV/mmV/mil 15.7 400Dielectric Constant @ 60 Hz ASTM-D-150 - 3 Dissipation Factor @ 60 Hz ASTM-D-150 - 0.02 Volume Resistivity @ 25°C ASTM-D-257 Ohm-cm 6 X 1014Storage and Handling:The shelf life of STYCAST 1266 Parts A and B are 12 months at 25°C. For best results, store in original, tightly covered containers. Storage in cool, clean and dry areas is recommended. Usable shelf life may vary depending on method of application and storage conditions. Certain resins and hardeners are prone to crystallization. If crystallization does occur, warm the contents of the shipping container to 50-60°C until all crystals have dissolved. Be sure the shipping container is loosely covered during the warming stage to prevent any pressure build-up. Allow contents to cool to room temperature before continuing.Health and Safety:The STYCAST 1266 Part A, like most epoxy compounds, possesses the ability to cause skin and eye irritation upon contact. Certain individuals may also develop an allergic reaction after exposure (skin contact, inhalation of vapors, etc.) which may manifest itself in a number of ways including skin rashes and an itching sensation. Handling this product at elevated temperatures may also generate vapors irritating to the respiratory system.The STYCAST 1266 Part B is classified as a corrosive material. Direct contact with unprotected eyes or skin can cause severe burns. Certain individuals may also develop an allergic skin or respiratory reaction after exposure. These reactions may manifest themselves in a number of ways including skin rashes, itching sensation and breathing difficulties. Handling this product may also generate vapors irritating to the respiratory system.Good industrial hygiene and safety practices must be used when handling this product. Proper eye protection and appropriate chemical resistant clothing must be worn to prevent contact. Consult the Material Safety Data Sheet (MSDS) for detailed recommendations on the use of engineering controls, personal protective equipment and first aid procedures.This information is only a brief summary of the available safety and health data. Thoroughly review the MSDS for more complete information before using this product.Attention Specification Writers:The values contained herein are considered typical properties only and are not intended to be used as specification limits. For assistance in preparing specifications, please contact Emerson & Cuming Quality Assurance for further details.Medical Implantable Disclaimer"In the event this product is intended by you for use in implantation in the human body, you are hereby advised that National Starch (or Emerson & Cuming) has not performed clinical testing of these materials for implantation in the human body nor has National Starch (Emerson & Cuming) sought, nor received, approval from the FDA for the use of these material in implantation in the human body. It is YOUR responsibility, as a manufacturer of any such device, to ensure that all materials and processes relating to the manufacture of any medical device fully comply with all applicable federal, state and local laws, rules, regulations and requirements as well as any such laws, rules, regulations, directives or other orders of any foreign country where such product is sold. If you have not undertaken the necessary investigations to ensure compliance you are advised NOT TO USE this product in the manufacture of any device which is to be implanted in the human body. No representative of ours has any authority to change the foregoing provisions."/ Underfills / Solder Alternatives /C.O.B Materials/ Encapsulants / Coatings /Adhesives /Film Adhesives /Thermal Interfaces /Electrically Conductive Coatings and Adhesives/ EuropeNijverheidsstraat 7B-2260 WesterloBelguim: +(32)-(0) 14 57 56 11 Fax: +(32)-(0) 14 58 55 30 / North America46 Manning RoadBillerica, MA 01821:978-436-9700Fax : 978-436-9701/ Asia-Pacific100 Kaneda, Atsugi-shiKanagawa-ken, 243-0807Japan: (81) 46-225-8815Fax: (81) 46-222-1347。

The MWX400 and Maximachines are also perfect vehicles for the dedicated jetted fixtures that are used to clean the most complex shapes, with blind holes, oil and fuel ways and internal galleries. MecWash’s experience with jettedfixtures is unparalleled.From basic baskets and manual loading through sliding load pallets and automated conveyors to robotics, the MWX400 and Maxi integrate easily with any production layout.The MWX400 and Maxi provide the ultimate flexible aqueous component cleaning and degreasing systems.The systems can combine ultrasonics with high flow washing, rinsing,dedicated jetting and vacuum dryingto provide the highest quality ofcomponent cleaning and dryingavailable. The systems are designedto process complex and intricatemachined or pressed parts thatrequire very high standards ofcleanliness, surface finish anddryness. This includes the removal of all types of contamination, fromsoluble and mineral oils to greases,polishing compounds, lapping pastes and dye penetrants.•Satisfies the high demands of the aerospace, defence, nuclear,medical and other precision industries•Highly durable specification,combines precision cleaning with24/7 dependability•numerous tailored options to fit the customer’s exact cleaning demands and automation requirements •over 300 systems supplied to bluechip automotive and aerospace engineering businessesMWX400Flood/Spray Wash; Flood/Spray Rinse; Ultrasonics; Hot Air & Vacuum Dry.Wash Chamber 400 x 470 x 600 - 2000Machine Dimensions 2500(W) x 2100(D) x 2230(H)Solo 300Spray Wash; Mist Rinse; Hot Air Dry.Wash Chamber300 x 300 x 400Machine Dimensions 1125(W) x 1230(D)x 1900(H)Solo 400Spray Wash; Mist Rinse; Hot Air Dry.Wash Chamber 400 x 450 x 600 - 1000Machine Dimensions 1275(W) x 1445(D) x 2100(H)Solo 600Spray Wash; Mist Rinse; Hot Air Dry.Wash Chamber 600 x 600 x 800Machine Dimensions 1575(W) x 1845(D) x 2700(H)AVD 300Flood/Spray Wash;Flood/Spray Rinse; Ultrasonics;Hot Air & Vacuum Dry.Wash Chamber 300 x 300 x 400Machine Dimensions 1175(W) x 2300(D) x 2355(H)MWX400Flood/Spray Wash; Flood/Spray Rinse; Ultrasonics; Hot Air & Vacuum Dry.Wash Chamber 400 x 470 x 600 - 2000Machine Dimensions 2500(W) x 2100(D) x 2230(H)Maxi 600Flood/Spray Wash; Flood/Spray Rinse; Ultrasonics; Hot Air & Vacuum Dry.Wash Chamber 600 x 600 x 800 - 1000Machine Dimensions 3830(W) x 2015(D) x 2400(H)Duo 400Flood/Spray Wash; Spray Rinse; Hot Air Dry.Wash Chamber 400 x 450 x 600 - 1000Machine Dimensions 1530(W) x 1635(D) x 2235(H)Duo 600Flood/Spray Wash;Spray Rinse;Hot Air Dry.Wash Chamber 600 x 650 x 800 - 1000Machine Dimensions2063(W) x 2295(D) x 2985(H)MWX400 & MAXiMWX400 & MAXIpReCiSion CleAning To THe HigHeST STAnDARDS。

首页关于我们产品展示人才招聘在线投诉联系方式English于我们型他励励电机控制系机控制系统统1266型他应用CURTIS/PMC 1266型他励电机控制系统具有可编程﹑高效﹑低耗﹑易于安装的特点。

对电机的速度和转矩提供平滑﹑静音﹑低耗的控制。

广泛应用于高尔夫球车﹑搬运车﹑观光游览车等各种商业及工业电动车辆。

特性具有再生制动功能可根据需要选择两种车辆行驶模式可使用科蒂斯1311手持编程器进行编程及故障诊断通过传感器闭环反馈速度信号对车辆速度更有效的控制具有斜坡制动功能HPD功能启动车辆时操作顺序保护功能（SRO）辅助驱动能驱动电磁刹车或防滑继电器车辆倒车时可输出一路信号，用于控制倒车灯，蜂鸣器等驱动器输出有短路保护和过压保护，外部线圈无需安装续流二极管符合EEC要求技术参数额定输入电压 36-48VPWM工作频率 16KHz绝缘 500V AC（最小）外形尺寸电控总成外形尺寸 375（长）× 200(宽) ×（105±2）（高）电控总成安装尺寸 260（长）×178 (宽) ×（4-Φ9）（高）保修期自发货之日起一年，也可由保修条款确定。

控制器典型接控制器典型接线图线图电动叉车 curtis 控制器 科蒂斯加速器 curtis 仪表 albright 接触器 吉门保险 app 电源接插件MOLEX amp curtis Copyright © 郑州嘉晨电器有限公司 Zhengzhou Jiachen Electric Co., Ltd 技术支持：时代伟业-东方快信| 站长统计。

AbyssDiana——藏在1266盛名下被低估的神器AbyssDiana众所周知，大耳里如1266、Susvara、T A Solitaire P等旗舰级别的耳机都有着极其离谱的前端要求，无论是对于高端解码还是适配的放大器的要求都让很多玩家望而却步….三四万的耳机投入如果能退烧毕业或许是小事，但看着动辄六位数的解码和不少用功放驱动耳机的玩家确实会让还没有开始深入折腾的烧友感到一震恐慌…. 但购入这类耳机不玩到比较极致又会觉得发挥不出全部潜力比较可惜。

当然，功放驱动耳机并不能算是大众玩法，其实也仅仅是针对于极少数的那几个怪物耳机，并且更多时候确实也是作为hi-end音响玩家的一个耳机补充…如果是耳机玩家，确实相对来说耳放的适用性和保有度还是要高很多的，但初入大耳坑的、或是说有一些易驱需求的玩家往往面对一个选择——究竟是要好推、易推（如一些封闭式或本身就已易推著名的开放大耳），还是追求继续折腾的潜力？我想在近期，很多烧友在德海找到了最佳答案——Abyss Diana。

首先列出一下Diana的基础参数：阻抗32Ω，灵敏度91分贝，63mm平板振膜单元，重量350g，线材长度1.5m。

从重量和线材长度以及阻抗上不难看出，其实Diana是有为易推做妥协的，单元技术来自当家旗舰，世界上最好的耳机之一，ab1266。

Diana把1266的单元改变，做的更薄，相对更易驱，并且最重要的是它并没有因此失去潜力，即使上到旗舰级耳放的它，也有着1266的九成功力，这也是比起其他易驱耳机Diana更受到全阶段烧友追捧的原因。

简单来说，它能带给你的本质就是，从你随身转大耳，用旗舰级别随身播放器开始，它就能给出很好的声音，但随着你不断升级前端，一步一步上到更好的解码器，放大器，它依然能反馈出你任何耳放的实力，并且350g的重量，更正常的外观比1266更能被很多人接受…而且发挥1266极限的前端也真的需要更高价位级别，所以如果不是追求真正hi-end，我想Diana是更适合所有烧友的选择。