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ÍndiceBA-KommCAN_ES / F0353600junio 20161Manual de instruccionesPaquete de comunicación CANBA-KommCAN_ES / F03536002BA-KommCAN_ES / F0353600Nos alegramos de que se haya decidido por un producto de alta calidad de la empresa relyonplasma GmbH y le agradecemos la confianza depositada en nosotros.Para poder utilizar el producto de forma óptima, lea atentamente el manual de instrucciones.¡Nota importante!¡Es imprescindible que lea todo el manual antes del montaje, la instalación y la puesta enservicio!¡Tenga en cuenta a toda costa las indicaciones de seguridad! El incumplimiento de las indicaciones de seguridad puede provocar accidentes y conllevar heridas graves para las personas o daños en la máquina. ¡La puesta en servicio y el funcionamiento del producto solo puede llevarlos a cabo personal técnico cualificado y con la debida formación!¡Instruya al personal! El explotador/usuario es responsable de que el personal haya comprendidocompletamente el manejo del aparato y las disposiciones de seguridad.© Copyright relyon plasma GmbH 2016.Todos los derechos reservados. All rights reserved.Los textos, las imágenes y los gráficos así como su disposición están protegidos por los derechos de propiedadintelectual así como otras leyes sobre protección. Se prohíbe la transferencia así como la distribución de estedocumento, la utilización y la comunicación de su contenido siempre que no se indique expresamente. Las infracciones implicarán una indemnización por daños y perjuicios. Todos los derechos reservados para el caso de registro depatente, registro de modelo de utilidad industrial o registro de modelo estético.Manual de instrucciones originalÍndiceBA-KommCAN_ES / F0353600 junio 2016 31Seguridad .................................................................................................................................. 4 1.1 Peligros residuales ............................................................................................................................ 4 1.2 Indicaciones y obligaciones para el usuario ..................................................................................... 4 1.3 Servicio de acuerdo con la normativa ............................................................................................... 5 1.4 Condiciones de servicio no admisibles ............................................................................................. 5 2Descripción del sistema ........................................................................................................... 6 2.1 Función.............................................................................................................................................. 6 2.2 Vista general del sistema .................................................................................................................. 6 2.2.1 Descripción de los componentes ........................................................................................ 6 2.2.2 Volumen de suministro ....................................................................................................... 7 2.2.3 Componentes de hardware necesarios adicionales ........................................................... 7 3Transporte/Almacenaje ............................................................................................................ 7 4Desembalaje e instalación ....................................................................................................... 7 4.1 Desembalaje ..................................................................................................................................... 7 4.2 Requisitos para la instalación ........................................................................................................... 7 4.3 Instalación de componentes de sistema ........................................................................................... 8 5Funcionamiento ........................................................................................................................ 9 5.1 Puesta en servicio ............................................................................................................................. 9 6 Medio ambiente .. (10)6.1 Eliminación (10)1SeguridadEl sistema se ha construido según las correspondientes normas internacionales. Noobstante, al igual que en cualquier producto técnico, en caso de un uso incorrecto o noadecuado pueden presentarse peligros derivados del sistema.Trabajar con el sistema puede resultar peligroso y provocar heridas graves, o incluso enalgunos casos la muerte. Por este motivo, le recomendamos se proteja usted mismo y aterceros.Además de las indicaciones de este manual de instrucciones, tenga en cuenta lasdisposiciones de seguridad válidas en general.Atención: ¡Peligro!Tenga en cuenta y cumpla las indicaciones de seguridad y los requerimientos de estemanual de instrucciones, ya que en caso de incumplimiento es posible que se produzcanheridas graves al manipular el sistema.1.1Peligros residualesEste sistema se ha fabricado según el estado actual de la técnica. A pesar de ello, nopueden excluirse riesgos residuales.Tenga en cuenta a toda costa las siguientes indicaciones de seguridad:Atención: ¡Tensión eléctrica!•Peligro debido a 230 V. Si se detectan daños en la conexión eléctrica, en el cable de red o en el sistema:- no ponga en servicio el sistema- encargue a un técnico que repare las piezas dañadas o sustitúyalas.¡Peligro de tropezar!Tienda las líneas de conexión en guías de cable adecuadas. Tienda el cable de maneraque no exista peligro de tropezarse con el mismo.1.2Indicaciones y obligaciones para el usuario•En principio, debe contarse con emisiones de interferencias.- El sistema ha sido comprobado según la disposición CEM.- El usuario debe comprobar y garantizar la compatibilidad electromagnética con otros aparatos eléctricos y electrónicos situados justo al lado.•Asegúrese de que:- el personal operario haya leído y comprendido este manual de instrucciones- las personas que se hallan cerca del aparato también hayan sido informadas sobre los peligros y estén equipadas con los medios de protección necesarios- los trabajos de mantenimiento solo sean realizados por personal técnicocualificado.•Instruya al personal operario especialmente sobre las indicaciones de seguridad de este manual de instrucciones.•Mantenga siempre la instalación en estado en condiciones para funcionar.•Las modificaciones en el aparato implicarán la extinción de los permisos de utilización y de la garantía. Excepción: en caso de que el fabricante haya autorizado lasmodificaciones expresamente.4 junio 2016 BA-KommCAN_ES / F03536001.3Servicio de acuerdo con la normativaEl sistema únicamente se ha previsto para el funcionamiento con la fuente de alta tensiónPS2000 y un generador de plasma de la empresa relyon plasma GmbH.Junto con un generador de plasma adecuado, el aparato únicamente es adecuado para eltratamiento de plasma de superficies de materiales (metales, tejidos, vidrio, plásticos) parala activación, la limpieza, el revestimiento o la eliminación de residuos con presiónatmosférica.En ningún caso, el sistema podrá ser accionado por personal que no disponga de ladebida formación.1.4Condiciones de servicio no admisiblesEl servicio del sistema no está permitido en las siguientes condiciones:•uso en áreas con peligro de explosión (EX)•en caso de grandes depósitos de polvo•en caso de humedad del aire muy elevada (>80 % rel.)•con temperaturas fuera del rango 0-40 °C o 32-104 °F•en caso de fuertes vibraciones.¡Nota!Le rogamos tenga en cuenta además las indicaciones de los manuales de instruccionesde todos los componentes adicionales conectados al sistema.BA-KommCAN_ES / F0353600junio 2016 52Descripción del sistema2.1FunciónLos componentes de este sistema son los elementos básicos de una comunicación conuna fuente de corriente PS2000 mediante el bus CAN con un PLC de orden superior.2.2Vista general del sistema2.2.1Descripción de los componentes23146 junio 2016 BA-KommCAN_ES / F03536002.2.2Volumen de suministroEl volumen de suministro incluye los siguientes componentes:•línea CAN (longitud 2 m)•resistencia terminal CAN (Sub-D)•paso de resistencia terminal CAN (Sub-D)•memoria USB con archivo EDS•manual de instrucciones2.2.3Componentes de hardware necesarios adicionalesSegún el PLC utilizado, se precisan componentes de hardware adicionales para unsistema completo en funcionamiento. A continuación encontrará recomendaciones paraello.Otros fabricantes de módulos PLC ofrecen para sus sistemas componentes similares.3Transporte/Almacenaje•Proteja el sistema frente a suciedad y cuerpos extraños.•Proteja el sistema frente a golpes.4Desembalaje e instalación4.1Desembalaje•Abra el embalaje con cuidado.•Extraiga los componentes del embalaje.4.2Requisitos para la instalaciónAntes de instalar el aparato, deben cumplirse los siguientes puntos:•los componentes deben estar en buen estado•en la instalación de tendido fijo y/o en la instalación del edificio, según lasespecificaciones de las respectivas disposiciones de seguridad nacionales (Alemania:VDE 0100) debe preverse un interruptor adecuado o un interruptor automático comodispositivo de aislamiento para todos los polos preconectado para poder aislar elsistema de la tensión de alimentación. Este dispositivo de aislamiento debe disponersecerca del aparato y debe ser fácilmente accesible para el usuario. Además, esteinterruptor debe identificarse como dispositivo de aislamiento para el aparato.•El cableado del sistema solo debe ejecutarlo un técnico electricista con la debida formación.•Tenga en cuenta todos los requisitos de instalación e indicaciones de seguridad de los aparatos conectados adicionalmente.BA-KommCAN_ES / F0353600junio 2016 78 junio 2016 BA-KommCAN_ES / F03536004.3 Instalación de componentes de sistemaPara instalar el sistema ejecute los siguientes puntos en la secuencia indicada:1. Conecte la resistencia de terminal CAN (paso) en el módulo previsto para ello del PLC deorden superior (véase al respecto el capítulo 2.2.3 Componentes de hardware necesarios adicionales).2. Conecte el cable CAN a la resistencia de terminal CAN (paso).3. Conecte la línea CAN con la conexión de la parte trasera de la fuente de corrientePS2000.4. Conecte el bus CAN a la PS2000 con la resistencia de terminal prevista para ello;véase al respecto también en caso necesario el manual de instrucciones de la fuentede corriente PS2000.5. Ajuste el número nodal de la PS2000 según el ajuste especificado en el software delPLC de orden superior.6. Establezca el circuito de parada de emergencia de la PS2000 así como todo el restode conexiones de los aparatos adicionales como se describe en los manuales deinstrucciones correspondientes.El sistema está instalado.5345Funcionamiento5.1Puesta en servicioPara accionar el sistema deben cumplirse los siguientes puntos:- Los interruptores principales de las fuentes de corriente conectadas PS2000 deben estar conectados.- El circuito de parada de emergencia debe estar conectado correctamente.- Las líneas de bus CAN deben estar conectadas, los dos extremos deben finalizar con resistencias terminales y las dirección de bus CAN debe estar ajustadacorrectamente en la parte posterior de la fuente de corriente.- La velocidad en baudios de la fuente de corriente es de 500 kBd. Esto debetenerse en cuenta en la programación del control de orden superior y ajustarsecorrectamente.- El suministro de gas del generador de plasma debe estar presente.- Todos los aparatos/componentes conectados adicionalmente deben estar bien conectados.Si se cumplen estos puntos, podrá controlar su proceso de plasma con el PLC de ordensuperior.Tenga en cuenta que para operar el generador de plasma es imprescindible que sedisponga de un flujo de gas. Se aconseja realizar una comprobación mediante el PLC deorden superior para controlar si hay suficiente flujo de gas. Esto puede realizarse porejemplo con un caudalímetro del tipo SFAB de Festo. Esta comprobación debe preverseen el sistema global. Antes de conectar la alta tensión a la generación de plasma, debeestar disponible durante como mínimo 2 segundos un flujo de gas mediante el generadorde plasma.Cuidado: ¡Daños en el aparato!El generador de plasma puede resultar dañado en caso de accionarse sin gas o con muypoco gas.- ¡No conecte en ningún caso la alta tensión si no fluye suficiente gas por el generador de plasma!BA-KommCAN_ES / F0353600junio 2016 96Medio ambiente 6.1EliminaciónTenga en cuenta la protección del medio ambiente.Los aparatos eléctricos y electrónicos no deben tirarse a la basura doméstica.- El aparato contiene materias primas valiosas que pueden reutilizarse. Por este motivo, recomendamos entregar el aparato en el puesto de recogida correspondiente.relyon plasma GmbHWeidener Straße 1693057 RegensburgAlemaniaTeléfono: +49-941-60098-0Fax: +49-941-60098-100email:**********************10 junio 2016 BA-KommCAN_ES / F0353600。

ISTRUZIONI D'USO E DI INSTALLAZIONE INSTALLATION AND USER'S MANUALINSTRUCTIONS D'UTILISATION ET D'INSTALLATION INSTALLATIONS-UND GEBRAUCHSANLEITUNG INSTRUCCIONES DE USO Y DE INSTALACION INSTRUÇÕES DE USO E DE INSTALAÇÃOCENTRALINA DI COMANDO D811184A ver. 04 08-02-02I CONTROL UNIT GB UNITÉ DE COMMANDE F STEUERZENTRALE D CENTRAL DE MANDO E CENTRAL DO MANDOP ARIES - ARIES P8027908113740a“WARNINGS” leaflet and an “INSTRUCTION MANUAL”.These should both be read carefully as they provide important information about safety, installation, operation and maintenance. This product complies with the recognised technical standards and safety regulations. We declare that this product is in conformity with the following European Directives: 89/336/EEC and 73/23/EEC (and subsequent amendments).1) GENERAL OUTLINEThe ARIES control unit has been designed for swing gates. It can be used for one or two gate controllers.The control unit mod. ARIES P can also be used to perform opening of a single actuator while keeping the other one closed (pedestrian access).2) FUNCTIONSSTOP: In all cases: it stops the gate until a new start command is given.PHOT:Functions can be set with Dip-Switch.Activated during closing.Activated during opening and closing.Rapid closingON: When the position of the gate photocells is exceeded, during both opening and closing, the gate automatically starts to close even if TCA is activated. We recommend setting DIP3 to ON (photocells only activated during closing).Blocks impulsesON: During opening, START commands are not accepted.OFF: During opening, START commands are accepted.PhotocellsON: Photocells only activated during closing.OFF: Photocells activated during opening and closing.Automatic closing time (TCA)ON: Automatic closing activated (can be adjusted from 0 to 90s)Preallarm (mod. ARIES P only)ON: The flashing light turns on abt 3 seconds before the motors start.FOR THE INSTALLER: check the boxes you are interested in.START:four-step logic Gate closedGate openDuring openingDuring closingAfter stop START: two-step logic SCA: Gate open indicating lightit opens it opensit stops and activates TCAit closesit stops and does not activate TCAit starts opening it stops and activats TCA (if activated)it closesit opensit opensoffononflashingATTENTION:Dip non used in mod. ARIES (always in OFF set).3) MAINTENANCE AND DEMOLITIONThe maintenance of the system should only be carried out by qualified personnel regularly. The materials making up the set and its packing must be disposed of according to the regulations in force.Batteries must be properly disposed of.WARNINGSCorrect controller operation is only ensured when the data contained in the present manual are observed. The company is not to be held responsible for any damage resulting from failure to observe the installation standards and the instructions contained in the present manual.The descriptions and illustrations contained in the present manual are not binding. The Company reserves the right to make any alterations deemed appropriate for the technical, manufacturing and commercial improvement of the product, while leaving the essential product features unchanged, at any time and without undertaking to update the present publication.D 811184A _04Thank you for buying this product, our company is sure that you will be more than satisfied with the product ’s performance. The product is supplied with a “WARNINGS ” leaflet and an “INSTRUCTION MANUAL ”.These should both be read carefully as they provide important information about safety, installation, operation and maintenance.This product complies with the recognised technical standards and safety regulations. We declare that this product is in conformity with the following European Directives: 89/336/EEC and 73/23/EEC (and subsequent amendments).1) GENERAL OUTLINEThe ARIES control unit has been designed for swing gates. It can be used for one or two gate controllers.The control unit mod. ARIES P can also be used to perform opening of a single actuator while keeping the other one closed (pedestrian access).2) GENERAL SAFETYWARNING! An incorrect installation or improper use of the product can cause damage to persons, animals or things.•The “Warnings ” leaflet and “Instruction booklet ” supplied with this product should be read carefully as they provide important information about safety, installation, use and maintenance.•Scrap packing materials (plastic, cardboard, polystyrene etc) according to the provisions set out by current standards. Keep nylon or polystyrene bags out of children ’s reach.•Keep the instructions together with the technical brochure for future reference.•This product was exclusively designed and manufactured for the use specified in the present documentation. Any other use not specified in this documentation could damage the product and be dangerous.•The Company declines all responsibility for any consequences resulting from improper use of the product, or use which is different from that expected and specified in the present documentation.•Do not install the product in explosive atmosphere.•The Company declines all responsibility for any consequences resulting from failure to observe Good Technical Practice when constructing closing structures (door, gates etc.), as well as from any deformation which might occur during use.•The installation must comply with the provisions set out by the following European Directives: 89/336/EEC, 73/23/EEC, 98/37/ECC and subsequent amendments.•Disconnect the electrical power supply before carrying out any work on the installation. Also disconnect any buffer batteries, if fitted.•Fit an omnipolar or magnetothermal switch on the mains power supply,having a contact opening distance equal to or greater than 3mm.•Check that a differential switch with a 0.03A threshold is fitted just before the power supply mains.•Check that earthing is carried out correctly: connect all metal parts for closure (doors, gates etc.) and all system components provided with an earth terminal.•The Company declines all responsibility with respect to the automation safety and correct operation when other manufacturers ’ components are used.•Only use original parts for any maintenance or repair operation.•Do not modify the automation components, unless explicitly authorised by the company.•Instruct the product user about the control systems provided and the manual opening operation in case of emergency.•Do not allow persons or children to remain in the automation operation area.•Keep radio control or other control devices out of children ’s reach, in order to avoid unintentional automation activation.•The user must avoid any attempt to carry out work or repair on the automation system, and always request the assistance of qualified personnel.•Anything which is not expressly provided for in the present instructions,is not allowed.3) TECHNICAL SPECIFICATIONSPower supply:...............................................................230V ±10% 50Hz Absorption on empty:.................................................................0.5A max Output power for accessories:..........................................24V~ 6VA max Max relay current:................................................................................8A Max power of motors:...............................................................300 W x 2Torque limiter:.................................................Self-transformer with 4 pos Limit switch:................................................................Adjustable run timePanel dimensions:.........................................................................See fig.1Cabinet protection:............................................................................IP55Working temperature:...............................................................-20 +55°C 4) TERMINAL BOARD CONNECTIONS(Fig.2)CAUTION: Keep the low voltage connections completely separated from the power supply connections.Fig.3 shows the fixing and connection method of the drive condensers whenever they are not fitted to the motor.JP51-2 Single-phase power supply 230V ±10%, 50 Hz (1=L/2=N).For connection to the mains use a multiple-pole cable with a minimum cross section of 3x1.5mm 2 of the type indicated in the above-mentioned standard (by way of example, if the cable is not shielded it must be at least equivalent to H07 RN-F while, if shielded, it must be at least equivalent to H05 VV-F with a cross section of 3x1.5mm 2).JP33-4 (mod.ARIES-P) 230V 40W max. blinker connection.5-6 (mod.ARIES) 230V 40W max. blinker connection.7-8-9 Motor M1 connection - 8 common, 7-9 start.10-11-12 Motor M2(r) connection - 11 common, 10-12 start.JP413-14 Open-close button and key switch (N.O.).13-15 Stop button (N.C.). If unused, leave bridged.13-16 Photocell or pneumatic edge input (N.C.). If unused, leave bridged.17-18 24V 3W max. gate open warning light.18-19 24V~ 0.25A max. (6VA) output (for supplying photocell or other device).20-21 Antenna input for radio-receiver board (20 signal - 21 braid).22 Common terminal (equivalent to terminal 13).23 Terminal for pedestrian control. It moves the leaf of motor M2 connected to terminal 10-11-12. This terminal is available only in ARIES-P control unit.JP225-26 2nd radio channel output of the double-channel receiver board (terminals not fitted on ARIES but fitted on ARIES-P) contact N.O.JP1 Radio-receiver board connector 1-2 channels.5) FUNCTIONSDL1:Power-on LedIt is switched on when the board is electrically powered.START: four-step logic: (DIP5 OFF)gate closed:..................................................................................it opens during opening:............................................... it stops and activates TCA gate open:................................................................................... it closes during closing:.................................... it stops and does not activate TCA after stop:.........................................................................it starts opening START: two-step logic: (DIP5 ON)gate closed:..................................................................................it opens during opening:................................it stops and activats TCA (if activated)gate open:....................................................................................it closes during closing:..............................................................................it opens after stop:.....................................................................................it opens STOP: In all cases: it stops the gate until a new start command is given.PHOT:Functions can be set with DIP-SWITCH.Activated during closing if DIP3-ON.Activated during opening and closing if DIP3-OFF.SCA: Gate open indicating light.with gate closed:...................................................................................off when gate is opening:...........................................................................on with gate open:.......................................................................................on when gate is closing:.....................................................................flashing 6) DIP-SWITCH SELECTION DIP1 Rapid closingON: When the position of the gate photocells is exceeded, during both opening and closing, the gate automatically starts to close even if TCA is activated. We recommend setting DIP3 to ON (photocells only activated during closing).OFF: Function not activated.DIP2 Blocks impulsesON: During opening, START commands are not accepted.OFF: During opening, START commands are accepted.DIP3 PhotocellsON: Photocells only activated during closing.OFF: Photocells activated during opening and closing.D 811184A _04DIP4 Automatic closing time (TCA)ON: Automatic closing activated (can be adjusted from 0 to 90s).OFF: Automatic closing not activated.DIP5 Control logicON: 2-step logic is activated (see start paragraph).OFF: 4-step logic is activated (see start paragraph).DIP6: Preallarm (mod.ARIES P only)ON: The flashing light turns on abt 3 seconds before the motors start.OFF The flashing light turns on simultaneously with the start of the motors.ATTENTION:Dip non used in mod. ARIES (always in OFF set).7) TRIMMER ADJUSTMENTTCA This adjusts the automatic closing time, after which time the gate automatically closes (can be adjusted from 0 to 90s).TW This adjusts the motor working time, after which time the motor stops (can be adjusted from 0 to 40s).TDELAY This adjusts the closing delay time of the second motor (M2).8) MOTOR TORQUE ADJUSTMENTThe ARIES control unit has electric torque adjustment which allows the motor force to be adjusted.The adjustment should be set for the minimum force required to carry out the opening and closing strokes completely.Adjustment is carried out by moving the connection 55 (fig.3) on the tran-sformer sockets as described below:Pos.T1 1st TORQUE (MINIMUM TORQUE)Pos.T2 2nd TORQUE Pos.T3 3rd TORQUEPos.T4 4th TORQUE (MAXIMUM TORQUE)4 motor torque values can be obtained.To gain access to the torque adjustment sockets, disconnect the mains supply and remove the protective case “P ” of the transfomer.CAUTION: Excessive torque adjustment may jeopardise the anti-squash safety function. On the other hand insufficient torque adjustment may not guarantee correct opening or closing strokes.9) MAINTENANCE AND DEMOLITIONThe maintenance of the system should only be carried out by qualified personnel regularly. The materials making up the set and its packing must be disposed of according to the regulations in force.Batteries must be properly disposed of.WARNINGSCorrect controller operation is only ensured when the data contained in the present manual are observed. The company is not to be held responsible for any damage resulting from failure to observe the installation standards and the instructions contained in the present manual.The descriptions and illustrations contained in the present manual are not binding. The Company reserves the right to make any alterations deemed appropriate for the technical, manufacturing and commercial improvement of the product, while leaving the essential product features unchanged, at any time and without undertaking to update the present publication.D811184A_04ARIES/ARIES-P - Ver. 04 -23。

LAURELELECTRONICS, INC.88-PRO Loop Powered Process Meter With 0.50" high LCD digits and detachable screw terminalsFeatures• Powered by 4-20 mA, 10-50 mA or 1-5 mA loop, with no need for other power • Maximum 2.5 V voltage drop• Easy zero & span adjustment from rear of meter • 3-1/2 digit resolution (±1999)• Jumper-selectable dummy right-hand zeros for reading to ±19990 or ±199900 • Normal or inverted scaling• High-legibility 12.7 mm (0.50") digits• 1/8 DIN panel cutout, only 93 mm (3.66") required behind panel • Environmental protection to IP54 (NEMA-12) when panel mounted • High-quality plug-in screw terminals •Low costDescriptionLoop powered. The 88-PRO Process Meter may be connected directly to a 4-20 mA, 10-50 mA or 1-5 mA current loop, with no need for additional power to the meter. This is because the meter is powered directly by the current loop, developing a maximum voltage drop of 2.5 V.Readout in engineering units. By accepting 4-20 mA, 10-50 mA or 1-5 mA signals, the 88-PRO is compatible with a large number of industrial transducers and transmitters to display process variables such as temperature, pressure, flow, weight, pH,humidity etc. Zero and span are adjustable for direct readout in engineering units. There is an INVERT facility, so that anincreasing input signal gives a reducing display, for example, 4-20 mA = 100.0 to 0.0. The 88-PRO also provides two jumper-selectable dummy right-hand zero to extend the maximum reading from the default of ±1999 to ±19990 or ±199900. This feature allows the display of large numbers, such as the weight of a truck in pounds. It also useful when the cost of a 4 ½ or 5 ½ digit meter may be too highEasy to install and set up. The 88-PRO fits in a standard 1/8 DIN panel cutout and only requires 93 mm (3.66") behind the panel. This is less than for most process meters. There are only two signal connections: signal in and signal out. These are made via a detachable screw terminal connector. All range-selection jumpers as well as the meter's zero and span adjustments are from the rear of the meter, avoiding the need to open the case.Attractive and easy to read. The facia of the 88-PRO isattractively styled. The simple bezel will compliment your panel design. The lens protects all legends and markings, so repeated wipe-downs won't damage the lettering or display clarity. High contrast LCDs make these meters suitable for use in bright environments. The digits measure a full 12.7 mm (0.50").An application example. The 88-PRO loop-powered process meter is in series with 12-30 Vdc power to a two-wire 4-20 mA pressure transmitter, which measures the pressure at the bottom of a straight-sided tank. The meter's broad scaling capabilities allow it to be adjusted to display the volume of the tank. When necessary, one or two dummy right hand zeros may be added to display values up to 199900.MechanicalPanel cutout: 45 mm high x 92 mm wide (1/8 DIN)SpecificationsSignalRangeEffective resistance Maximum voltage drop 4-20 mA125 Ω2.5 V10-50 mA50 Ω2.5 V1-5 mA500 Ω2.5 VDisplayDisplay rangeDisplay heightDisplay typeDecimal point selection Display update rate Open circuit response Decimal point selection ±1999, ±19990, ±199900 (jumper-selectable) 12.7 mm (0.50")High-contrast LCDPush-on jumpers3 / secDisplay blanksPush-on jumpers behind front panelElectricalAccuracy Resolution, max. Calibration method CMRRLinear rangesA-D conversion Integration period Power ± 0.1% of reading ± 1 count1 part in 2000Zero & span potentiometers65 dB, 0-450 Hz3-21 mA, 8-52 mA, 0.8-6 mADual slope integration100 msDerived from current loop with 2.5 V max dropMechanicalBezel dimensions Panel cutoutDepth behind panel Width behind panel Case material WeightElectrical connections 48 x 96 mm (1.89" x 3.78"), H x W 45 x 92 mm (1.77" x 3.62"), H x W 93 mm (3.66") including connector 98 mm (3.86") max. Polycarbonate, UL rating 94V-0100 g (3.5 oz)Detachable screw terminal connectorEnvironmentalOperating temperature Humidity -10°C to 50°C (14°F to 122°F)-20° RH at 50°C (122°F), non-condensingOrdering GuideCreate a model a model number in this format: 88-PRO, BOX1DPM Type88-PRO 88-PRO Loop Powered Process Meter.Add-on Options IPC Clear front panel cover sealed to NEMA 4X / IP65BOX1NEMA-4X wall-mount enclosure with 1/8 DIN cutoutBOX2BOX1 plus IPC。

Utility for CP-104UL/104JU Series (PComm Lite) Release Notes Supported Operating SystemsNotesChangesApplicable ProductsBugs Fixed• Different versions of PComm Lite 2000 can be installed on the same PC.• Performance Analyzer can store previous configurations of the COM port list.• PComm Terminal users can set history depth in ANSI and VT100 mode.• PComm Terminal could not locate system file ws2_32.dll in Windows 2000 and Windows XP.• In the Send Pattern function, an individual port cannot be stopped but all ports can be stopped simultaneously.EnhancementsWindows 2000, Windows 7, Windows Server 2003, Windows Server 2008, Windows Server 2008 R2,Windows Vista, Windows XPUSB-to-Serial Converters, Multiport Serial Boards, Serial Device Servers• Added byte transmit/receive counter in PComm Terminal.• PComm Terminal supports pasting clipboard content to terminal.New FeaturesN/A• Terminal Emulator: Supports all serial products, including non-Moxa products.• Diagnostic Utility: Supports Moxa Multiport Serial Boards.• Monitor Utility: Supports Moxa Multiport Serial Boards.• Performance Analyzer: Supports Moxa Multiport Serial Boards, UPort Series, and NPort Series.• PComm Library: Supports all serial products, including non-Moxa products.Supported Operating SystemsNotesChangesApplicable ProductsBugs Fixed• ncludes VC project example code for PComm library • Read method using RX_CHAR event.• Supports opening multiple COM ports.• Log files can be stored in a specified path/link.N/AEnhancementsWindows 2000, Windows 7, Windows Server 2003, Windows Server 2008, Windows Server 2008 R2,Windows Vista, Windows XPUSB-to-Serial Converters, Multiport Serial Boards, Serial Device Servers• Supports Windows 2008/2008 R2 (x86/x64).• Supports HEX code display for dumb mode.• Supports linear baud rate configuration.• Supports send pattern for multiple COM ports.• Supports data file pattern.• Supports interval time between sending two patterns.• Supports network communication: TCP Server/Client, UDP.• Supports auto line wrap.• Supports customizing terminal size.• Supports DTR/DSR flow control configuration.• Supports Performance Analyzer.New FeaturesN/A• Terminal Emulator: Supports all serial products, including non-Moxa products.• Diagnostic Utility: Supports Moxa Multiport Serial Boards.• Monitor Utility: Supports Moxa Multiport Serial Boards.• Performance Analyzer: Supports Moxa Multiport Serial Boards, UPort Series, and NPort Series.• PComm Library: Supports all serial products, including non-Moxa products.Supported Operating SystemsNotesChangesApplicable ProductsBugs Fixed• VT100 added "DEL" key support.• Modified all online help to HTML format.• PComm Lite supports up to COM1024.• Updated PComm.dll to fix ASCII tx causing VB program to hang if tx is held by CTS flow control.EnhancementsWindows 2000, Windows 7, Windows Server 2003, Windows Vista, Windows XPUSB-to-Serial Converters, Multiport Serial Boards, Serial Device Servers• Supports Windows Vista/7.New FeaturesN/A• Terminal Emulator: Supports all serial products, including non-Moxa products.• Diagnostic Utility: Supports Moxa Multiport Serial Boards.• Monitor Utility: Supports Moxa Multiport Serial Boards.• Performance Analyzer: Supports Moxa Multiport Serial Boards, UPort Series, and NPort Series.• PComm Library: Supports all serial products, including non-Moxa products.Supported Operating SystemsNotesChangesApplicable ProductsBugs Fixed• PComm Terminal display performance.• PComm Terminal status bar display problem.• PComm Terminal display problem with Moxa UC Series/EtherDevice/W2004 console.EnhancementsWindows 2000, Windows Server 2003, Windows XPUSB-to-Serial Converters, Multiport Serial Boards, Serial Device Servers• Utilities support Moxa MSB x64 driver.• PComm Library supports Windows x64 Edition (AMD64, EM64T). For cross development, x86 & x64library will both be installed.New FeaturesN/A• Terminal Emulator: Supports all serial products, including non-Moxa products.• Diagnostic Utility: Supports Moxa Multiport Serial Boards.• Monitor Utility: Supports Moxa Multiport Serial Boards.• Performance Analyzer: Supports Moxa Multiport Serial Boards, UPort Series, and NPort Series.• PComm Library: Supports all serial products, including non-Moxa products.。

Frequently Asked Questions forV5R2M0 Electronic Service Agent for iSeriesQ1: Where can I get media for the Electronic Service Agent product (5798-RZG)?A1: New systems leaving IBM from manufacturing will have Electronic Service Agent preloaded on the iSeries system. OS/400 upgrades will have the product included with theOS/400 software order on the B29XX_07 standard set products CD-ROM where XX is the language id.For systems where the product is not preloaded and the install media is not readily accessible, a separate Electronic Service Agent V5R2M0 CD-ROM will be available at V5R2 GA. IBM Service Representatives (SSRs) can order this CD-ROM (SK3T-4116-01) through IBM Publications.Q2: Are there any migration instructions if I am upgrading my iSeries system from V4R5 orV5R1 to V5R2?A2: Yes. If you SLIP install V5R2, the Service Agent inventory collection task created within Management Central will exist along with the QYSDDIAL TCP/IP connection profile, so you will not have to recreate them. However, you will need to accept the license agreement for inventory collection via the Extreme Support wizard. For hardware problem reporting, you will need to obtain an activation password from your IBM Service Representative (SSR) and accept the license agreement.Q3: Why does LODRUN fail when I try to install Service Agent?A3: The methods to install Service Agent from CD-ROM are the Restore Licensed Program command (RSTLICPGM) or Install Licensed Programs (GO LICPGM option 11).Message CPF3717 is generated if LODRUN is attempted.Q4: Why do I need to use a user profile for Inventory setup that has a *SECOFR user class but not the actual QSECOFR user profile?A4: The operating system has a submit job restriction that does not allow batch jobs to be submitted in the name of system supplied user profiles, such as QSECOFR. However, for Management Central purposes, the QSECOFR user profile must be enabled.If a collection task is created by QSECOFR, the inventory collection task will be started by the QSECOFR user profile and the data will be collected normally. After collection, Management Central will attempt to submit a QYIVRIPS job to be run in the QSVCDRCTR subsystem to send the inventory data. The operating system will not allow the QYIVRIPS job to be submitted because of the submit job restriction. Message CPD1617 (‘Value specified for USER parameter not correct.’) will be generated.Q5: How do I activate Service Agent functions?A5: For existing Service Agent customers, hardware problem reporting is activated by entering GO SERVICE on a command line. You will need an activation password from your IBM ServiceRepresentative (SSR). System inventory collection and transmission is activated using iSeries Navigator and the Extreme Support Wizard under Management Central.Q6: In prior releases of Service Agent, I needed to set up a locale object to make sure the time information for the scheduled task and history panel was correct. Is that still necessary for Service Agent?A6: Although the use of an OS/400 locale object is no longer necessary for Service Agent, we recommend you make sure the system value for time (QTIME) and the system value QUTCOFFSET are set correctly for your time zone. Changes may need to be made during the calendar year for the beginning and ending of Daylight Savings Time to ensure continuity of the task operations and history panel information.Q7: In V5R2 iSeries Navigator, what additional options are available to the Electronic Service Agent object under Management Central’s Extreme Support?A7: The additional V5R2 options are listed below. To view all of the options, expand Extreme Support and click Agents. Right click on the Electronic Service Agent object.!Using the “Configure Electronic Services” option you can register existing IBM ids to the Service Agent Information site to view your system’s inventory information. If you do not!!The history panel can be refreshed using F5 or from a drop-down option from the history panel.!You can start and stop job logging of all jobs that are run by user id QSVCDRCTR.Q8: Are there new or updated inventory selections for Service Agent?A8: Yes. V5R2 Service Agent sends Group PTF information (part of the PTF inventory) as well as Software Audit information (part of Software Inventory). Service Agent can also send the System Registration information. The System Registration wizard is located in the Configuration and Service section of iSeries Navigator. Sending this information and registering your iSeries system with IBM will help make future service calls to IBM faster and more productive.Q9: Does Service Agent send all of my system inventory to IBM each time it transmits?A9: No. After the first transmission of all of your selected inventories, Service Agent will only transmit system inventory if any part of that inventory has changed since the last time Service Agent transmitted. In V5R2, for PTF inventory and Software Resource inventory, Service Agent will only transmit the specific changes, and not the entire inventory.Q10: When I tried to do Inventory -> Collect, I did not get the option to send the Service Agent information. Has there been a change?QQ11: How can I set up Service Agent to report problems from a central system to IBM for other iSeries systems or secondary partitions in my network?A11: For hardware problem reporting, the products needed for this function are Electronic Service Agent (5798RZG) and System Manager for iSeries (57xxSM1) which is fee based software.System Manager for iSeries gives your central system or main partition the ability to report hardware failures on behalf of the iSeries systems or other partitions in your network.The link below to an IBM Software Knowledge Base document provides the information toQ12: How can I set up Service Agent to send inventory information from a central system to IBM for other iSeries systems or secondary partitions in my network?A12: For inventory transmission, Management Central allows collection from other iSeries systems or secondary partitions and transmission from the central system. You must have Service Agent installed on the secondary partitions or iSeries systems. The OS/400 release running on the central system determines the types of inventory to be sent since new collection capabilities have been added over the past two OS/400 releases.Q13: During Service Agent setup, I am having problems starting the Management Central server jobs and connecting to Management Central. What should I do?A13: We recommend this excerpt from the Management Central FAQs.You will need to perform some troubleshooting. The problem is most likely a TCP/IP configuration problem on the host. The following TCP/IP related questions should be answered.• Has TCP/IP been configured (CFGTCP) on your iSeries systems in the network?• Has TCP/IP been started (STRTCP) on your iSeries systems in the network?• Can you 'ping' the host from the client or another iSeries?• Can you 'ping' the client from the iSeries?• Can you 'ping' other iSeries systems in your network from the client and from the iSeries?• If you are using a Domain Name Server (DNS), both short and long names for the system in your network must be there and entered correctly.• If you are not using a DNS, the host table for both short and long name(CFGTCP, option 10) must be there and entered correctly. For example, a commonpractice is to define a long name that conveys the networkorganization and to also define a short name such as SYS1 that is easier to remember.!Is the domain information listed in CFGTCP, option 12 specified correctly?Host name (ex: SYS1) and domain name (ex: )• Is there a port conflict? Management Central uses port 5555 (NETSTAT, option 3.) You can also view the Service Entry Table (CFGTCP, opt 21, opt 1) to identify portassignments. Management Central has three port numbers assigned to it. Non-SSLservice as-mgtctrl is port 5555, SSL service as-mgtctrl-cs is port 5577 and SSL serviceas-mgtctrl-ss is port 5566. If these are not defined in the service table, add them.The protocol is TCP.• Starting in V5R1, Management Central added a java server job (QYPSJSVR) to support java function on the GUI. In order for this java server to run, the QSECOFR user profile must NOT be disabled.If the above troubleshooting steps do not solve the problem, contact your IBM Software Support Center.Q14: Are there problem determination steps for Service Agent inventory problems?A14: Yes. The following diagram steps through a general problem determination process.Q15: When I take option 19 to Display Service Agent audit log using the Service Agent Main Menu (GO SERVICE), my screen does not automatically go to the bottom of the file for the most recent entries as in past releases. Has there been a change?A15: Yes. The audit log file has been changed for easier code page translation and is displayed using SQL. On the ‘Position to line’ field, you can enter the letter B to get to the bottom of the file for the most recent audit log entries.Q16: When I look at the job schedule entries (WRKJOBSCDE) on my system, there is a QSDAUTOTST job schedule entry. What is that entry used for?A16: QSDAUTOTST is the Service Agent automated operational test which is an integral part of V5R2. This scheduled job will send a test to the service provider every 91 days for verification purposes. Day of the week and time settings can be modified using option 1 ‘Change Service Agent Settings’ from the Service Agent Main Menu (GO SERVICE).Q17: The V5R2 AUTOPTF function has been requesting a different informational APAR than in prior releases. Has there been a change?A17: Yes. The new informational APAR used for AUTOPTF at V5R2 is II12806.Q18: Why is there a new JV1 requirement for V5R2 systems running Service Agent Inventory Collection and Transmission?A18: The V5R2 IBM Developer Kit for Java has been updated. To comply with licensing requirements and to ensure V5R2 Service Agent will function, the update must be applied to user systems.The OS/400 product 5722JV1 (IBM Developer Kit for Java) and its option 5 (Java Developer Kit 1.3) need to be restored from the operating system CD B29XX_08, where XX is the two digit language identifier. No IPL or activation of Java code is necessary.This change affects new and existing V5R2 Electronic Service Agent inventory configurations.。

MAR-2000 SeriesOverviewAppearanceThe MAR-2000 is a compact, simple, and programmable RISC-based wireless mobile router with strong wireless routing capabilities. With a built-in GPS module, HSPA+ cellular and 802.11a/b/g/n wireless capabilities, independent power switches on its cellular module connectors, and high thermal tolerance, the MAR-2000 is compliant with a portion of EN 50155 specifications. The built-in 32 MB NOR Flash ROM and 512 MB SDRAM give you enough memory forinstalling your own application software, the 512 MB NAND Flash can be used to provide additional data storage, and the CompactFlash socket is available for adding more memory when needed. The built-in GPS module supports geo-fencing functionality, making it ideal for managing wireless connections in cross-WAN environments often associated with rolling stock and other vehicular applications.When a train travels to a different region, it often encounters switches that support different wireless interfaces, such as Wi-Fi, UMTS, and HSPA+. The MAR-2000 uses multiple-WAN support and backup functionality to ensure that your wireless connections are always available, stable, and reliable.As an added bonus, the MAR-2000 series includes wide temperature models designed to operate reliably in extreme environments with temperatures ranging from -25 to 70°C.Front ViewRear ViewDO x 4(Power, Programmable,Ready, Storage)10/100 Mbps LED Indicators x 4Pin AssignmentEthernet PortHardware SpecificationsComputerCPU: Intel XScale IXP435, 533 MHzUSB: USB 2.0 hosts x 2, type A connectorDRAM: DDR2 SDRAM, 512 MBFlash:• NOR Flash, 32 MB onboard to store OS• NAND Flash, 512 MB (1 GB max.) for OS file system, caching storage, and data loggerOS (pre-installed): Linux 3.8.13StorageStorage Expansion: CompactFlash (Type I/II) sockets x 1, up to 8 GB Ethernet InterfaceLAN: Auto-sensing 10/100 Mbps ports (M12) x 2Magnetic Isolation Protection: 1.5 kV, built inGPS Module (U-Blox LEA-6S)Receiver Types:• 50-channel U-blox 6 engine• GPS L1 C/A code• SBAS: WAAS, EGNOS, MSAS, GAGANAcquisition:• Cold starts: 28 s• Warm starts: 28 s• Aided starts: 1 s• Hot starts: 1 sSensitivity:• Tracking: -160 dBm• Reacquisition: -160 dBm• Cold starts: -147 dBmTiming Accuracy:• RMS: 30 ns• 99%: < 60 ns• Granularity: 21 nsAccuracy:• Position: 2.5 m CEP• SBAS: 2.0 m CEPProtocols: NMEA, UBX binary, 5 Hz max. update rate (ROM version) Time Pulse: 0.25 Hz to 1 kHzVelocity Accuracy: 0.1 m/sHeading Accuracy: 0.5 degreesA-GPS: Supports AssistNow Online and AssistNow Offline, OMA SUPL compliant Operational Limits: Velocity: 500 m/s (972 knots)Connector Type: TNCWLAN Module (Atheros AR9220)WAPN001: IEEE 802.11a/b/g/n wireless LAN module with TNC antenna connectorStandards: IEEE 802.11a/b/g/n for wireless LANConnector Type: QMA connectors (female type) x 2Mode: Client/APCellular Module (Cinterion PH8)Frequency Bands: GSM/GPRS/EDGE/UMTS/HSPA+Band Options:• Five-band UMTS (WCDMA/FDD)• 800/850/1900 AWS and 2100 MHz• Quad-band GSM: 850/900/1800/1900 MHzHSDPA/HSUPA Data Rates:DL: 3.6/7.2/14.4 Mbps; UL: 2.0/5.76 MbpsUMTS Data Rates:DL: 384 kbps (max.); UL:384 kbps (max.)EDGE Class 12:DL: 237 kbps (max.); UL: 237 kbps (max.)GPRS Class 12:DL: 85.6 kbps (max.); UL: 85.6 kbps (max.)Connector Type: QMA connector (female type)Serial InterfaceSerial Standards: RS-232/422/485 software-selectable ports (DB9) x 2Console Port: RS-232 (TxD, RxD, GND), 4-pin pin header output (115200, n, 8, 1)Serial Communication ParametersData Bits: 5, 6, 7, 8Stop Bits: 1, 1.5, 2Parity: None, Even, Odd, Space, MarkFlow Control: RTS/CTS, XON/XOFF, ADDC® (Automatic Data Direction Control) for RS-485Baudrate: 50 bps to 921.6 kbps (supports nonstandard baudrates; see user’s manual for details)Serial SignalsRS-232: TxD, RxD, DTR, DSR, RTS, CTS, DCD, GNDRS-422: TxD+, TxD-, RxD+, RxD-, GNDRS-485-4w: TxD+, TxD-, RxD+, RxD-, GNDRS-485-2w: Data+, Data-, GNDSoftware SpecificationsDigital InputInput Channels: DI x 4Input Voltage: 0 to 30 VDCDigital Input Levels for Dry Contacts: • Logic level 0: Close to GND • Logic level 1: OpenDigital Input Levels for Wet Contacts: • Logic level 0: +3 V max.• Logic level 1: +10 V to +30 V (COM to DI)Connector Type: 10-pin screw-fastened terminal block (4 points, COM, GND)Isolation: 2 kV optical isolationDigital OutputOutput Channels: DO x 4, sink typeOutput Current: 200 mA (max.) per channelOn-State Voltage: 24 VDC nominal, open collector to 30 VConnector Type: 10-pin screw-fastened terminal block (4 points, GND)LEDsSystem: Power, Ready, Storage, Programmable LAN: 10M x 2, 100M x 2 (on connector)Serial: TxD x 2, RxD x 2Reset Button: Supports “Reset to Factory Default”Physical CharacteristicsHousing: SECC sheet metal (1 mm)Weight: 1.2 kg (2.67 lb)Dimensions: 200 x 57 x 120 mm (7.87 x 2.24 x 4.72 in)Mounting: DIN rail, wallEnvironmental LimitsOperating Temperature: -25 to 70°C (-13 to 158°F)Storage Temperature: -40 to 80°C (-40 to 176°F)Ambient Relative Humidity: 5 to 95% (non-condensing)Anti-Vibration: IEC 61373 standard Anti-Shock: IEC 61373 standardPower RequirementsInput Voltage: 24 VDC (9 to 48 V), M12 connector Input Current: 833 mA @ 24 VDC Power Consumption: 20 WStandards and CertificationsSafety: UL 60950-1EMC: EN 55032 Class A, EN 61000-4-2, EN 61000-4-3, EN 61000-4-4, FCC Part 15 Subpart B Class ARail Traffic: EN 50155*, EN 50121-4, IEC 61373*Complies with a portion of EN 50155 specifications.ReliabilityAlert Tools: Built-in buzzer and RTC (real-time clock)Automatic Reboot Trigger: Built-in WDT (watchdog timer)MTBF (mean time between failures)Time:MAR-2002-T: 280,129 hrs MAR-2001-T: 350,609 hrsStandard: Telcordia (Bellcore) Standard TR/SRWarrantyWarranty Period: 5 years (does not apply to cellular module)Details: See /warrantyNote: These hardware specifications describe the embedded computer unit itself, but not its official accessories. In particular, the wide temperature specification does not apply to accessories such as power adapters and cables.LinuxOS: Linux 3.8.13Terminal Server (SSH): Provides secure encrypted communications between two untrusted hosts over an unsecure network File System: JFFS2, NFS, Ext2, Ext3, Ext4, UBIFSInternet Protocol Suite: TCP, UDP, IPv4, SNMPv2, ICMP, ARP, HTTP, CHAP, PAP, DHCP, NTP, PPPInternet Security: OpenVPN, IPTables Firewall, OpenSSLNetwork Service: Moxa’s Dynamic Routing and network management Web UIGPS: Uses gpsd, which is a daemon that receives data from a GPS receiver, and provides the data back to multiple applications such as Kismet or GPS navigation software Application Development Software:• Moxa API Library (Moxa serial I/O control, Moxa DI/DO API) • GNU C/C++ cross-compiler, supports EABI • GNU C library• GDB source-level debugging serverSoftware Protection: Encryption tool for user executable files (based on patented Moxa technology)Ordering InformationM12 Connectors (can be purchased separately)M12A-5P-IP68: Field-installaable A-coded screw-fastened power connector, 5-pin female M12 connector, IP68-ratedM12D-4P-IP68: Field-installable D-coded screw-fastened Ethernet connector, 4-pin male M12 connector, IP68-ratedM12 Cables (can be purchased separately)CBL-M12(FF5P)/Open-100 IP67: 1-meter A-coded M12-to-5-pin power cable, 5-pin female M12 connector, IP67-ratedCBL-M12D(MM4P)/RJ45-100 IP67: 1-meter D-coded M12-to-RJ45 Cat-5C UTP Ethernet cable, 4-pin male M12 connector, IP67-ratedWLAN Cable and AntennaCable: QMA (male) to SMA (male) adapter with 50 cm cableAntenna: 2 dual-band omnidirectional antennas (2 dBi, RP-SMA, 2.4/5 GHz)Cellular Cable and AntennaCable: QMA (male) to SMA (female) adapter with 50 cm cableAntenna: Omni 1 dBi rubber SMA antennaGPS Cable and AntennaCable:TNC to SMA (female) adapter with 50 cm cable Antenna: 26 dBi, 1572 MHz, L1 band antenna。

IBM® Rational® Rhapsody®IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128 OverviewVersion 1.11License AgreementNo part of this publication may be reproduced, transmitted, stored in a retrieval system, nor translated into any human or computer language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual or otherwise, without the prior written permission of the copyright owner, BTC Embedded Systems AG. The information in this publication is subject to change without notice, and BTC Embedded Systems AG assumes no responsibility for any errors which may appear herein. No warranties, either expressed or implied, are made regarding Rhapsody software including documentation and its fitness for any particular purpose.TrademarksIBM® Rational® Rhapsody®, IBM® Rational® Rhapsody®Automatic Test Generation Add On, and IBM®Rational® Rhapsody®TestConductor Add On are registered trademarks of IBM Corporation.All other product or company names mentioned herein may be trademarks or registered trademarks of their respective owners.© Copyright 2000-2017 BTC Embedded Systems AG. All rights reserved.Table of Contents1.Purpose (4)2.Overview about the IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128 (6)2.1 IBM Rational Rhapsody Reference Workflow Guide (6)2.2 IBM Rational Rhapsody TestConductor Add On Reference Workflow Guide (6)2.3 IBM Rational Rhapsody TestConductor Add On Safety Manual (7)2.4 TÜV SÜD Certificate for IBM Rational Rhapsody TestConductor Add On (7)2.5 TÜV SÜD Report to the Certificate for IBM Rational Rhapsody TestConductor Add On 7 2.6 IBM Rational Rhapsody TestConductor Add On Validation Suite (8)2.7 IBM Rational Rhapsody SXF / SMXF Frameworks (C++ / C) (9)2.8 IBM Rational Rhapsody SXF / SMXF Validation Suites (9)3.Appendix A: List of Figures (10)4.Appendix B: List of References (11)1. PurposeThis document provides an overview of the various artifacts in the IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128. The IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128 includes guidance on how to capably develop safety-related software with IBM Rational Rhapsody by meeting the tool qualification objectives described in the safety-related standards ISO 26262 (1), IEC 61508 Edition 2.0 (2), IEC 62304 (10) and EN 50128 (11). The IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128 contains the following artifacts:▪Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128 Overview (this document)▪Rhapsody Reference Workflow Guide▪Rhapsody TestConductor Add On Reference Workflow Guide▪Rhapsody TestConductor Add On Safety Manual▪TÜV SÜD Certificate for IBM Rational Rhapsody TestConductor Add On▪TÜV SÜD Report to the Certificate for IBM Rational Rhapsody TestConductor Add On ▪Rhapsody TestConductor Add On Validation Suite (Note: the TestConductor Validation Suite is an optional component of the kit)▪IBM Rational Rhapsody SXF / SMXF Frameworks (C++ / C)▪IBM Rational Rhapsody SXF / SMXF Validation SuitesFigure 1: IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 501282. Overview about the IBM Rational Rhapsody Kit for ISO26262, IEC 61508, IEC 62304 and EN 50128The current document describes the content of the IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128.2.1 IBM Rational Rhapsody Reference Workflow GuideThe IBM Rational Rhapsody Reference Workflow Guide document (3) focuses on developing safety-related projects with Rational Rhapsody. When developing safety-related software additional quality objectives have to be met in ord er to produce and deliver “safe” systems. These additional quality objectives essentially depend on∙ a specific industrial domain where the product under development shall be deployed, ∙an appropriate safety standard that must be applied for a particular domain.The scope of this document covers software that is developed according to ISO 26262 (1), IEC 61508 (2), IEC 62304 (10) or EN 50128 (11). ISO 26262 was released in 2011 and is becoming a commonly used safety standard in the Automotive industry. IEC 61508 Edition 2.0 was published in 2010 and is a commonly used standard for the development of electrical/electronic/programmable electronic safety-related systems. IEC 62304 was released in 2006 for the medical industry. An updated version of EN 50128 was published in 2012 and is a commonly used standard for the development of Software for Railway Control and Protection Systems. Such standards describe proven processes and methods for the development of safety-related software, provide guidelines and recommendations for customizing the process and methods to a specific customer process, and also describe what it means to qualify tools in order to use them for the development and testing of safety-related software.In the IBM Rational Rhapsody Reference Workflow Guide document, focus is placed on UML model-based development and testing of safety-related software with IBM Rational Rhapsody. Also included is the IBM Rational Rhapsody Reference Workflow which provides a broader view of the development process spanning requirements, available methods, solutions, and tools.2.2 IBM Rational Rhapsody TestConductor Add On Reference WorkflowGuideThe IBM Rational Rhapsody TestConductor Add On Reference Workflow Guide document (4) serves as a reference for testing activities to perform in a model based development process using IBM Rational Rhapsody with the IBM Rational Rhapsody TestConductor Add On (5). Itcomplements the document IBM Rational Rhapsody Reference Workflow Guide (3) that focuses on the model based development with IBM Rational Rhapsody in safety-related projects. The IBM Rational Rhapsody TestConductor Add On Reference Workflow Guide document provides further information and describes variations of the IBM Rational Rhapsody Reference Workflow, focusing on testing methods as provided by IBM Rational Rhapsody TestConductor Add On.2.3 IBM Rational Rhapsody TestConductor Add On Safety ManualThe IBM Rational Rhapsody TestConductor Add On Safety Manual (6) provides guidance on using IBM Rational Rhapsody TestConductor for testing activities in a model based development process when developing safety-related software. This safety manual complements the previous documents, and provides additional information for installing and using IBM Rational Rhapsody TestConductor in safety-related projects.2.4 TÜV SÜD Certificate for IBM Rational Rhapsody TestConductor AddOnThe official IBM Rational Rhapsody TestConductor Certificate (7) was issued by TÜV SÜD Product Service GmbH, Germany. This certificate states that IBM Rational Rhapsody TestConductor Add On is qualified to be applied in safety-related software development for all SIL levels according to IEC 61508, IEC 62304 and EN 50128, and for all ASIL levels according to ISO 26262.2.5 TÜV SÜD Report to the Certificate for IBM Rational RhapsodyTestConductor Add OnThe Report to the Certificate for IBM Rational Rhapsody TestConductor Add On (8) describes in detail the meaning and the constraints of the IBM Rational Rhapsody TestConductor certificate. It explains the results of the independent testing and certification of IBM Rational Rhapsody TestConductor Add On.The Report to the Certificate for IBM Rational Rhapsody TestConductor Add On is part of the IBM Rational Rhapsody TestConductor Add On documentation installation. The document is password protected. A valid IBM Rational Rhapsody TestConductor Add On license is needed to open this document. The Report to the Certificate (PDF format) can be opened with the function“Rhapsody->Tools->TestConductor->Help->Open Report to the Certificate”.After invoking this function the tool displays a password to the user. This password should be entered into the PDF viewer to eventually open the Report to the Certificate.Further distribution of the unprotected document is strictly prohibited.2.6 IBM Rational Rhapsody TestConductor Add On Validation Suite Note: the TestConductor Validation Suite is an optional component of the kit.The IBM Rational Rhapsody TestConductor Add On Validation Suite (9) is one of the fundamental elements used for the qualification and certification of IBM Rational Rhapsody TestConductor Add On. The Validation Suite has been designed for verifying the correctness for all relevant IBM Rational Rhapsody TestConductor Add On features for model based testing of IBM Rational Rhapsody models and code. By applying the validation suite a pre-qualification of the tool has been performed. “Pre-qualification” means it is a general tool qualification independent of a specific customer project. If the certification of a customer product requires tool qualification the validation suite can be used to support the tool qualification.The validation suite consists of∙detailed feature specifications∙detailed test specifications linked to feature specifications∙test implementations for test specifications and test resultsThe customer/user can use the Validation Suite to reproduce and verify the test results, and to enhance the test scope to user specific environments.The IBM Rational Rhapsody TestConductor Add On Validation Suite is not part of the IBM Rational Rhapsody TestConductor Add On installation. For each Rhapsody major release an appropriate IBM Rational Rhapsody TestConductor Add On Validation Suite is available. IBM Rational Rhapsody TestConductor Add On customers can get access to the validation suite through this link:https:///services/forms/preLogin.do?source=swg-rhp8tstcdtrThe IBM Rational Rhapsody TestConductor Add On Validation Suite is delivered as a password protected zip file. A valid IBM Rational Rhapsody TestConductor Add On license is needed to unzip it. The IBM Rational Rhapsody TestConductor Add On Validation Suite can be opened with the function“Rhapsody->Tools->TestConductor->Help->Open Report to the Certificate”.After invoking this function the tool displays a password to the user. This password should be used to unzip the file.Further distribution of the unprotected IBM Rational Rhapsody TestConductor Add On Validation Suite is strictly prohibited.2.7 IBM Rational Rhapsody SXF / SMXF Frameworks (C++ / C)IBM Rational Rhapsody provides an Object eXecution Framework (OXF) library that is used for standard C and C++ code generation. For safety-related development IBM Rational Rhapsody provides two dedicated libraries called Simplified eXecution Framework (SXF) and Simplified MicroC eXecution Framework (SMXF). The SXF library is the safety-related C++ framework library. It’s a comprehensive C++ library that is suitable to be used in safety-related production C++ code environments. The C counterpart of the SXF library is the SMXF library. This is a comprehensive C library that is suitable to be used in safety-related production C code environments.Both libraries are delivered as part of the standard Rhapsody installation kit for Windows.2.8 IBM Rational Rhapsody SXF / SMXF Validation SuitesIn order to be able using the SXF or SMXF for safety-related developments it is needed to do a systematic qualification of the simplified frameworks. The SXF and SMXF come equipped with validation suites containing:∙Test cases to verify functional correctness of the SXF/SXMF functionality∙Code coverage report after execution of the requirements based test suite∙Requirements coverage report using ReporterPlus. All framework classes and operations are traced to requirements∙MISRA compliance statementsBy executing the proper validation suite it can be verified that the chosen framework is fit for its purpose.Both validation suites are delivered as part of the standard Rhapsody installation kit for Windows.3. Appendix A: List of FiguresFigure 1: IBM Rational Rhapsody Kit for ISO 26262, IEC 61508, IEC 62304 and EN 50128 (5)4. Appendix B: List of References1. Road vehicles – Functional Safety, International Organization for Standardization, ISO26262. 2011.2. Functional safety of electrical/electronic/programmable electronic safety-related systems,IEC 61508, Edition 2.0. 2010.3. IBM Rational Rhapsody Reference Workflow Guide.4. IBM Rational Rhapsody TestConductor Add On Reference Workflow Guide.5. IBM Rational Rhapsody TestConductor AddOn. [Online]/software/awdtools/rhapsody/.6. IBM Rational Rhapsody TestConductor Add On Safety Manual.7. TÜV SÜD Certificate for IBM Rational Rhapsody TestConductor Add On,No. Z10-16-02-81878-003. 2016.8. TÜV SÜD Report to the Certificate for IBM Rational Rhapsody TestConductor Add On,No. IW84460C-1.3.1. 2016.9. IBM Rational Rhapsody TestConductor Add On Validation Suite.10. Medical device software – Software life cycle processes, IEC 62304 Edition 1.0, 2006.11. Railway Applications: Software for Railway Control and Protection Systems, EN 50128, 2011.Page 11。

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

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Part Number 900-310 Revision F March 2005XPort™ Integration GuideCopyright and Trademark© 2005, Lantronix. All rights reserved. No part of the contents of this book may betransmitted or reproduced in any form or by any means without the written permissionof Lantronix. Printed in the United States of America.XPort, with its patent-pending technology, is a trademark of Lantronix.Ethernet is a trademark of XEROX Corporation. UNIX is a registered trademark ofThe Open Group. Windows 95, Windows 98, Windows 2000, Windows NT, andWindows XP are trademarks of Microsoft Corp. Netscape is a trademark of NetscapeCommunications Corporation.ContactsLantronix Corporate Headquarters15353 Barranca ParkwayIrvine, CA 92618, USAPhone:949-453-3990Fax: 949-453-3995Technical SupportFax: 949-450-7226Online: /supportEmail/Chat: /supportSales OfficesFor a current list of our domestic and international sales offices, go to the Lantronixweb site at /about/contact/.Disclaimer and RevisionsOperation of this equipment in a residential area is likely to cause interference, inwhich case the user, at his or her own expense, will be required to take whatevermeasures may be required to correct the interference.Note:This product has been designed to comply with the limits for a Class Bdigital device pursuant to Part 15 of FCC Rules. These limits are designed toprovide reasonable protection against harmful interference in a residentialinstallation. This equipment generates, uses, and can radiate radio frequencyenergy, and if not installed and used in accordance with this guide, maycause harmful interference to radio communications.Changes or modifications to this device not explicitly approved by Lantronix will voidthe user's authority to operate this device.Note:With the purchase of XPort, the OEM agrees to an OEM firmwarelicense agreement that grants the OEM a non-exclusive, royalty-freefirmware license to use and distribute the binary firmware image provided,only to the extent necessary to use the XPort hardware. For further details,please see the XPort OEM firmware license agreement.Release11/03 A Initial4/04 B Firmware 1.6 features; information to support XPort-036/04 C Technical specifications updated8/04 D Firmware 1.8 features; added XPort-485 information10/04 E Removed out of date manual referencesillustration3/05 F UpdatedContentsCopyright and Trademark_________________________________________________2Contacts______________________________________________________________2Disclaimer and Revisions_________________________________________________2 1: Introduction 5 About the Integration Guide________________________________________________5Additional Documentation_________________________________________________5 2: Description and Specifications 6 The XPort_____________________________________________________________6XPort Block Diagram_____________________________________________________6PCB Interface__________________________________________________________7Ethernet Interface_______________________________________________________9LEDs_________________________________________________________________9Dimensions___________________________________________________________10Recommended PCB Layout______________________________________________11Product Information Label________________________________________________11Technical Specifications_________________________________________________12 3: Development Kit 14 Contents of the Kit______________________________________________________14Evaluation Board Description_____________________________________________14Evaluation Board Block Diagram___________________________________________15 Major Components__________________________________________________________15 Serial RS-232 Interface__________________________________________________15RS-232 Port___________________________________________________________16Power Supply_________________________________________________________16General Control PLD____________________________________________________16Configuration Switch Bank_______________________________________________16 SW1-2 Options_____________________________________________________________17SW1-3 Options_____________________________________________________________18SW1-4, SW1-5 Options_______________________________________________________19 Timer________________________________________________________________20Board Layout__________________________________________________________21 Component Identification_____________________________________________________21 A: XPort-485 Connection Diagram 22B: Compliance and Warranty Information 23 Compliance Information__________________________________________________23Warranty_____________________________________________________________24 XPort™ Integration Guide 3List of FiguresFigure 2-1. Side View of the -03 XPort (6)Figure 2-2. XPort Block Diagram (7)Figure 2-3. XPort LEDs (9)Figure 2-4. Front View (10)Figure 2-5. Bottom View (10)Figure 2-6. Side View (10)Figure 2-7. PCB Layout (11)Figure 2-8. Product Label (12)Figure 3-1. SW1-2 OFF (17)Figure 3-2. SW1-2 ON (18)Figure 3-3. SW1-3 OFF (18)Figure 3-4. SW1-3 ON (18)Figure 3-5. SW1-5 OFF and SW1-4 ON (19)Figure 3-6. SW1-5 ON and SW1-4 ON (19)Figure 3-7. JP4 Configurable Pins Interface Header Footprint (20)Figure 3-8. Board Layout (21)List of TablesTable 2-1. PCB Interface Signals (7)Table 2-2. Ethernet Interface Signals (Industry Standards) (9)Table 2-3. XPort LED Functions (XPort-03 and greater only) (9)Table 2-4. Technical Specifications (12)Table 3-1. RS-232 Signals (15)Table 3-2. Configuration Switch Settings (17)Table 3-3. CP1 Status Indicator (18)Table 3-4. LED States (19)Table 3-5. JP4 Connections (20)Table 3-6. Board Components (21)4 X Port™ Integration Guide1:I n t r o d u c t i o nAbout the Integration GuideThis guide provides the information needed to test the XPort™device server on theXPort Evaluation Board. This manual is intended for engineers responsible forintegrating the XPort into their product.Note: This document covers XPort™ Device Server versions XP1001000-01 (XPort-01), XP1001000-03 (XPort-03), and XP1004000-03 (XPort-485).Additional DocumentationThe following guides are available on the product CD and the Lantronix Web site()XPort™ Getting Started Provides the steps for getting the hardware andsoftware up and running.XPort™ User Guide Provides information needed to configure, use,and update the XPort firmware.DeviceInstaller User Guide Provides instructions for using the Windows-based utility to configure the XPort and otherLantronix device servers.Com Port Redirector User Guide Provides information on using the Windows-based utility to create a virtual com port.In addition to this documentation, the supplied CD contains a configurable pinscontrol web applet that lets you view the state of the configurable GPIO pins. Thisapplet is provided in the Sample Code and Solutions folder.For firmware versions 1.3 and earlier, the corresponding applet file isxptcpctl102.cob. For later firmware versions (greater than version 1.3), thecorresponding applet file is xpt_gpioctl_154.cob.XPort™ Integration Guide 52:D e s c r i p t i o n a n d S p e c i f i c a t i o n sThe XPort embedded device server is a complete network-enabling solution enclosedwithin an RJ45 package. This miniature serial-to-Ethernet converter empowersoriginal equipment manufacturers (OEMs) to quickly and easily go to market withnetworking and web page serving capabilities built into their products.The XPortThe XPort contains Lantronix’s own DSTni controller, with 256 Kbytes of SRAM,2 Kbytes of boot ROM for the XPort-01 or 16 Kbytes of boot ROM for the XPort-03 orgreater, and integrated AMD 10/100 PHY.The XPort also contains the following:3.3-volt serial interfaceAll I/O pins are 5V tolerant (XPort-03 or greater only)4-Mbit flash memoryEthernet magneticsPower supply filtersReset circuit+1.8V regulator25-MHz crystal and Ethernet LEDsThe XPort requires +3.3-volt power and is designed to operate in an extendedtemperature range (see technical data).Figure 2-1. Side View of the -03 XPortXPort Block DiagramThe following drawing is a block diagram of the XPort showing the relationships of thecomponents.XPort™ Integration Guide 6PCB InterfaceThe XPort has a serial port compatible with data rates up to 920 kbps (in high-performance mode) for the XPort-03 and greater, and at 230 kbps for the XPort-01.The serial signals (pins 4–8) are 3.3V CMOS logic level (5V tolerant for the XPort-03and greater only). The serial interface pins include +3.3V, ground, and reset. Theserial signals usually connect to an internal device, such as a UART. For8 X Port™ Integration Guide10 X Port™ Integration GuideDescription and SpecificationsXPort™ Integration Guide 11Recommended PCB Layout The hole pattern and mounting dimensions for the XPort device server are shown in the following drawing. For proper heat dissipation, it is recommended that the PCB have approximately 1 square inch of copper attached to the shield tabs. The shield tabs are an important source of heat sinking for the device.Figure 2-7. PCB LayoutProduct Information LabelThe product information label contains important information about your specific unit, such as its product ID (name), bar code, part number, and Ethernet (MAC) address.Technical SpecificationsTable 2-4. Technical Specifications12 X Port™ Integration GuideXPort™ Integration Guide 143: D e v e l o p m e n t K i tThe XPort Development Kit includes everything you need to begin to integrate the XPort into your product design.Contents of the KitThe development kit contains the following items:XPort Evaluation BoardXPort Device Server+5VDC Universal Power Supply with snap-fit plugs for different countriesRS-232 cable, DB9M/FCAT5e UTP RJ45M/M Ethernet cableCD with software utilities and documentation (in PDF format)Serial adaptor, 25-pin to 9-pinEvaluation Board DescriptionThe XPort Evaluation Board provides a test platform for the Lantronix XPort device server.The XPort Evaluation Board supplies an RS-232 serial interface to 3.3V CMOS level interface connection for the XPort. It also supplies the XPort device server with+3.3V. Evaluation board controls include a programmable logic device (PLD), reset push button switch, DIP switch, timer circuit, and reset circuit.In addition to the status LEDs on the XPort, the evaluation board contains multiple LEDs. The power supply drives the red LED. The PLD drives the remaining LEDs; in the basic mode of operation, these LEDs indicate whether the RS-232 interface is16 X Port™ Integration Guide18 X Port™ Integration Guide20 X Port™ Integration GuideA:X P o r t-485C o n n e c t i o n D i a g r a mThe following example illustrates a connection between the XPort-485 to an externaltransceiver IC:XPort™ Integration Guide 22B:C o m p l i a n c e a n d W a r r a n t y I n f o r m a t i o n Compliance Information(According to ISO/IEC Guide 22 and EN 45014)Manufacturer’s Name & Address:Lantronix 15353 Barranca Parkway, Irvine, CA 92618 USADeclares that the following product:Product Name Model: XPort Embedded Device ServerConforms to the following standards or other normative documents:Electromagnetic Emissions:EN55022: 1998 (IEC/CSPIR22: 1993) Radiated RF emissions, 30MHz-1000MHzConducted RF Emissions – Telecom Lines – 150 kHz – 30 MHzFCC Part 15, Subpart B, Class BIEC 1000-3-2/A14: 2000IEC 1000-3-3: 1994Electromagnetic Immunity:EN55024: 1998 Information Technology Equipment-Immunity CharacteristicsDirect ESD, Contact DischargeIndirect ESDRadiated RF Electromagnetic Field TestElectrical Fast Transient/Burst ImmunityRF Common Mode Conducted SusceptibilityPower Frequency Magnetic Field TestManufacturer’s Contact:Director of Quality Assurance, Lantronix15353 Barranca Parkway, Irvine, CA 92618 USATel: 949-453-3990Fax: 949-453-3995XPort™ Integration Guide 2324 X Port™ Integration Guide。

Sediment deposition in the northern basins of the North Atlantic and characteristic variations in shelf sedimentation along the East Greenland marginDaniela Berger *,Wilfried JokatAlfred Wegener Institute for Polar and Marine Research,Am Alten Hafen 26,27568Bremerhaven,Germanya r t i c l e i n f oArticle history:Received 14October 2008Received in revised form 9April 2009Accepted 15April 2009Available online 3May 2009Keywords:Glacial sediments Prograding foresets Sediment transport Seismic reflectiona b s t r a c tNew seismic data off East Greenland were acquired in the summer of 2002,between 77 N and 81 N,north of the Greenland Fracture zone.The data were combined with results from the Greenland Basin and ODP site 909,and indicate a pronounced middle Miocene unconformity within the deep sea basins between 72 N and 81 N.Seismic unit NA-1consists of sediments older than middle Miocene age and unit NA-2contains sediments younger than the middle Miocene.Classification of a thinly bedded succession in the Molloy Basin resulted in a subdivision into four units (unit I,unit II,unit IIIA and unit IIIB).A comparison of volume estimations and sediment thickness maps between 72 N and 81 N indi-cates differences in sediment accumulation in the Greenland,Boreas and Molloy basins.Important controls on the variation of accumulation included different opening times of the basins,as well as tectonic conditions and varying sources of sediment transport.Due to prominent basement structures and the varying reflection character of the sediments along the entire East Greenland margin,we defined an age model of shelf sediments on the basis of similar sediment deposit geometry and known results from other regions.The seismic sequences on the shelf up to an age of middle Miocene are divided into three sub-units along the East Greenland margin:middle Miocene–middle late Miocene (SU-3),middle late Miocene–Pleistocene (SU-2),Pleistocene (SU-1).The differences in the geometry of the sequences show more ice stream related sedimentation between 72 N and 77 N and more ice sheet related sedimentation north of 78 N.The region south of 68 N is dominated by more aggradational sedimentary strata so that a glacio-fluvial drainage seems the main transport mechanism.Due to the Greenland Inland–ice borderlines,we assume the glaciers between the Scoresby Sund and 68 N did not reach the shelf break.A first comparison of the sediment structure of the Northeast Greenland margin with the Southeast Greenland margin made it possible to demonstrate significant differences in sedimentation along this margin.Ó2009Elsevier Ltd.All rights reserved.1.IntroductionThe initial opening of the Norwegian–Greenland Sea took place during early Eocene times (Talwani and Eldholm,1977).The first seafloor spreading anomalies in the Boreas Basin occurred at 35Ma and the opening of the Molloy Basin began at 21Ma (Ehlers and Jokat,2008).There is little known about the timing of the opening of the deep-water connection between the Arctic Ocean and the northern North Atlantic.The timing is important,because the deep-water formation and the deep-water exchange between the cold Arctic Ocean and the warm northern North Atlantic could be an indicatorfor changes in global climates.Results from the Integrated Ocean Drilling Program (IODP)Expedition 302(ACEX)in 2004show a transition from poorly oxygenated to fully oxygenated conditions during the latter part of the early Miocene in the Arctic Ocean (Moran et al.,2006;Jakobsson et al.,2007).Moran et al.(2006)attribute this change in the ventilation regime to the opening of the Fram Strait.Ehlers and Jokat (2008)postulate for the initial opening of the Fram Strait at 17–18Ma (middle Miocene),based on the analysis of magnetic seafloor spreading anomalies.The question remains as to,whether there is a relationship between the opening of the Fram Strait and the onset of glaciation in the Northern Hemisphere.The glacial history of the Northern Hemisphere is a subject of controversy.Accordingly,accurate reconstructions of Greenland climate history are an important precondition for our understanding of the sources of global climate change and sea level variations.Least*Corresponding author.E-mail address:daniela.berger@awi.de (D.Berger).Contents lists available at ScienceDirectMarine and Petroleum Geologyjournal homepage:www.elsevier.com/locate/marpetgeo0264-8172/$–see front matter Ó2009Elsevier Ltd.All rights reserved.doi:10.1016/j.marpetgeo.2009.04.005Marine and Petroleum Geology 26(2009)1321–1337understood are the speculations about the onset of the glaciation of East Greenland,which vary from Plio/Pleistocene to Eocene age (Winkler et al.,2002;Tsikalas et al.,2005;Eldrett et al.,2007).The absence of drill holes on the East Greenland shelf further compli-cates the understanding of the glacial history of the island.Geophysical studies were concentrated on the Southeast Greenland margin(Larsen et al.,1994;Planke and Alvestad,1999)to cover the volcanic complexes and to retrieve information concerning the break-up scenario in the region.Seismic measurements were carried out during the seasons of1980–1982by the GEUS(Geological Survey of Denmark and Greenland).ODP Site914is located on the Southeast Greenland shelf above aflood basalt area(Planke and Alvestad,1999).The ties between borehole and seismic reflection profile GGU/82-02show an onset of prograding foresets on the Southeast Greenland margin in the middle late Miocene(w7Ma, Larsen et al.,1994,1999).Tsikalas et al.(2005)made thefirst seis-mostratigraphic correlation for the Northeast Greenland shelf based on reflection character,regional considerations and onshore Greenland Geology(Haman et al.,2005;Stemmerik et al.,1993).The model from Tsikalas et al.(2005)shows an age of Plio/Pleistocene for the base of progradation at76 N.However,Berger and Jokat(2008) have made thefirst correlation from the deep Greenland Basin towards the shelf on the basis of ODP Site913(Myhre et al.,1995). Their results show an onset of progradation in the middle Miocene and the unconformity at the base of progradation is interpreted as a consequence of strong sea level changes and glacial erosion.Other speculations depend on analyses of drill hole material from deep sea positions.By means of ice-rafted debris and proxy data of ODP Site 909and Site908,Winkler et al.(2002)suggest a cooling phase during the middle Miocene.Results from analyses of ODP Site913in the deep Greenland Basin indicate stratigraphically extensive ice-rafted debris,including macroscopic dropstones,in late Eocene to early Oligocene sediments deposited between approximately38and 30million years ago(Eldrett et al.,2007).The authors assume the sediment rafting was mainly caused by glacial sea ice and suggest East Greenland as the likely source.The latest IODP ACEX drilling results derived from a recent drilling expedition to the Lomonosov Ridge in the Arctic Ocean show gneiss dropstones in an undisturbed sediment section,dated at w45Ma,which are interpreted as ice-rafted debris.At the same site a26Myr long hiatus(Backmann et al., 2005)separates middle Eocene(44.4Ma)deposits from early Miocene(18.2Ma)deposits.Moran et al.(2006)define this interval as overlapping with the timing of a global shift from a largely ice-free,warm planet with high relative sea level,to a planet charac-terized by the climate-modulated waxing and waning of ice sheets. At the end of this interval the abundance of dropstones and sand suggests that sea ice and icebergs,calved from glaciers,were present in the Arctic Ocean in the early Miocene(Moran et al.,2006).Results from the Norwegian margin,Southeast Greenland margin and Antarctic margin show that glacial shelf sediments are mostly represented by prograding sequences.Grounded ice transports a large volume of sediment across the shelf edge and unsorted sediments are deposited on the outer shelf and slope.The repeated advance of ice sheets to the shelf edge during glacial periods results in a cyclicity in sediment supply.These advances are viewed as the mechanism for the development of the prograding sequences(e.g.Cooper et al.,1991; Barker and Camerlenghi,2002;Nielsen et al.,2005).Another possi-bility for prograding clinoforms in the absence of evidence of glacia-tion can be relative sea level changes(Vail et al.,1977).A new seismic dataset between77 N and80 300N(Fig.1)covers the Molloy Basin and the Boreas Basin,as well as the adjacent slope area in the west and parts of the East Greenland shelf(Fig.1).The data were acquired in the summer2002with‘‘RV Polarstern’’during the expedition ARK XVIII/2by the Alfred Wegener Institute for Polar and Marine Research(Jokat et al.,2003).A total of5847km of seismic reflection data were gathered to promote the understanding of the sedimentation history along the East Greenland margin specifically in the north.The interpretation of this seismic dataset combined with information from ODP Site909,and compared with results from previous studies along the entire East Greenland margin,provides new insight into the glacial and sedimentary history along the margin.2.Data acquisition and processingDue to heavy ice conditions during the seismic reflection survey, a streamer with a length of600m was used.The streamer was provided with96active channels,and had a hydrophone group spacing of6.25m.The shot interval was15s,which is equivalent to a shot distance of35–40m.Seventeen sonobuoys were additionally deployed along the East Greenland margin to complement the network.The multichannel seismic data were demultiplexed,edited, sorted and binned into25m spaced CDPs.Before stacking,the data were band passfiltered with15–90Hz.The short streamer provided only limited velocity information for depth conversion, because of the small offset compared to the water depth(>1500m). Representative stacking velocities(Æ50m/s)for this region were derived from sonobuoy data.They were used to define a simple but regionally consistent model of three layers plus basement.The velocities range between1800m/s for the uppermost sediment layer,and up to3300m/s at the top of the basement.After processing,the calculated sediment thicknesses were gridded with the surface utility from Generic Mapping Tools(GMT). To analyse the volume of the sediments in the Molloy,Boreas and Greenland basins the areas of sediment accumulation were divided into grid cells with a size of0.5 Â0.5 .3.ODP site909Several sites were drilled during ODP cruise Leg151in the summer 1993with the RV‘‘Joides Resolution’’on the East Greenland margin. Site908and site909(Fig.1)were drilled in the deep sea at78 230N, 1 220E(908)and78 350N,3 40E(909)in the northern North Atlantic. Site909was planned as the deep-water location in the Fram Strait on a small abyssal terrace located immediately to the north of Hovgård Ridge(Myhre et al.,1995).Further southwest,site908was drilled on the Hovgård Ridge,50km away from drill site909.This core has a length of1061m and is situated in a water depth of3590m on profile 20020300(Fig.1).The age model is based on paleomagnetic data according to the time scale of Cande and Kent(1992).The general sediment composition is described as dark-gray silty clays(Myhre et al.,1995).The drilled sediment sections were divided into three main units(Fig.2),and unit three was subdivided into A and B. Dropstones with a diameter>1cm were found from Pliocene to Quaternary in the interval of0–248.8m.b.s.f.,which is named unit I (Fig.2).The thickness of lithological unit II is269.5m (248.8–518.3m.b.s.f.).The silty clay is more massive and interbedded with thinner layers of carbonate-rich clays.Dropstones were not found in this unit,which was dated from Pliocene to Miocene.The base of unit IIIA(518.3–923.4m.b.s.f.)is placed at the top of slump structures.The entire interval is of Miocene age.The silty and clayey lithology is characterized by meter-scale intervals of thin bioturbated layers and laminations(Myhre et al.,1995).The deepest unit IIIB (923.4–1061.8m.b.s.f.)was dated as Miocene to upper Oligocene and contains folded and deformed bedding(Myhre et al.,1995).4.ResultsThe seismic profiles were subdivided into two parts and will be described in this chapter.Whenever possible within these basins,D.Berger,W.Jokat/Marine and Petroleum Geology26(2009)1321–1337 1322a seismostratigraphic model was added.Eight profiles which cross the East Greenland shelf from west to east are introduced,and a classification of the shelf sediments is included.4.1.Classification of seismic unitsLithological units classified by Myhre et al.(1995)have been correlated into the seismic network of the deep Molloy Basin.Within the deep Molloy Basin is a thinly laminated sediment succession (Fig.1:gray area)indicated by clear identifiable reflec-tors.The seismic resolution appears to be higher than in the adja-cent regions (Figs.2–4).A comparison of the seismic velocities from the thinly laminated sediment deposits with the transparentsediment succession is not possible because the short streamer (600m)provided only limited velocity information.However,the area of thinly laminated sediments is limited (Fig.1),and a consistent age model with four units could not be created for the entire dataset between 77 N and 81 N.The seismic profiles in the Molloy Basin (Fig.3)indicate that the area of thin layered deposits is limited by several basement highs (Fig.3:20020300,20020505,20020525).One reflector is dominant within the study area and is located within lithologic unit IIIA at a borehole depth of 730m.b.s.f.and can be correlated throughout the entire dataset.Myhre et al.(1995)suggest a Miocene age for this interval.Since the prominent reflector is situated in the middle of this interval,we have estimated an age of middle Miocene,based on the assumption of a constant sedimentation rate during thisperiod.Fig.1.Map of the study area with bathymetric contours plotted with a spacing of 500m.The black lines represent the locations of seismic reflection profiles in the Boreas and Molloy beled profiles are described in chapter 4.The black dots represent the locations of ODP sites 909and 908.SFZ,Senja Fracture zone;HR,Hovgård Ridge;GFZ,Greenland Fracture zone;MB,Molloy Basin;BB,Boreas Basin;GB,Greenland Basin.The gray area represents the location of thin-bedded sediments.D.Berger,W.Jokat /Marine and Petroleum Geology 26(2009)1321–13371323Therefore,the whole sediment package has been divided into two megasequences.This classification could be made for all the sedi-ments in the Molloy and Boreas basins (77–81 N).The sediments above the middle Miocene reflector are represented by seismic unit NA-2(NA ¼North Atlantic)and the sediments between the middle Miocene and the top of the basement are represented by seismic unit NA-1.Unit NA-1has an age of middle Miocene to the beginning of the opening of the representative basins and unit NA-2has an age range of middle Miocene to present day.The detailed seis-mostratigraphy of the four units (unit I to unit IIIB)was added where it was possible to subdivide the structure of the thinly laminated sediments (Figs.3–5).Fig.2.Stratigraphic model of the deep sea part of the Boreas and Molloy rmation on ODP drill hole 909was taken from Myhre et al.(1995).Seismic velocities are determined on the basis of seismic velocity analysis and sonobuoy data.Definition of unit NA-1and unit NA-2is based on a prominent horizon of regional character.The left column (age)is only an approximation,based on the ages of Myhre et al.(1995).The emphasized age of middle Miocene represents the age of the prominent reflector in the drill hole depth of 730m.b.s.f.provided that the sedimentation rate was nearly constant within intervalIIIA.Fig.3.Seismic reflection profiles in the Molloy Basin.The location of the profiles is shown in Fig.1.Numbers at the black arrows show the ties of the crossing profiles.6AA on profile 20020525represents the magnetic anomaly C6AA (21Myr).NA-1and NA-2are seismic units,which are older and younger than middle Miocene respectively (white dashed lines demonstrate the transition).Black lines represent the top of the acoustic basement.D.Berger,W.Jokat /Marine and Petroleum Geology 26(2009)1321–133713244.2.Molloy BasinThe Molloy Basin (Fig.1)is bound in the south by the Hovgård Ridge and in the north by the Spitsbergen Fracture Zone.Bathy-metric data provide an average water depth of 3500m for the central Molloy Basin.Profile 20020300(Fig.3)has a total length of approximately 350km,situated north of the Hovgård Ridge and orientated northwest–southeast.ODP Site 909(Figs.2and 3)is located at CDP 5675in a water depth of 2520m.The trench of the Knipo-vich Ridge at the eastern end of the profile is also observable on profile 20020500,which is located approximately 100km north of profile 20020300.Between CDP 1800and 9750(Fig.3:AWI-20020300)a thin layered seismic reflection pattern of nearly 900m is visible.The seismic units were interpolated along crossing profiles of profile 20030300.At CDP 10000(Fig.3:20020300)the basement crops out at the seafloor and forms a boundary with thinly layered reflection pattern.The profile 100km north (20020500)shows northwest of the Knipovich Ridge a thinly layered reflection pattern between CDP 6450and 4000of approximately 1km of sediment.Below 3500m depth on profile 20020300and 4200m depth on profile 20020500a more transparent reflection character is observed up to the top of the acoustic basement.The lower sediments in unit NA-2are characterized by high amplitudes compared with the deposits in the upper part of unit NA-1.On both northwest–southeast trending profiles the deposits in the area between the upper slope region and the foot of the slope appear chaotic.This change from acoustically thinly layered sediments to chaotic deposits complicates an age correlation in the upper slope region.The profiles 20020505,20020515and 20020525are situated in a west–east direction within the Molloy Basin (Fig.3).These profiles show a rough basement structure in the lower slope region at a depth between 2and 3km.The top of this structure crops out at the seafloor on profile 20020525,and almost reaches the seafloor on profiles 20020505and 20020515.Westwards of this structural high,within 1km of the upper part of NA-2,the sediments are characterized by a transparent reflection pattern.Below this section a sediment package with higher amplitudes is observed down to 4km depth.Below 4km,the continuous sediment structure represents an almost transparent reflection character.In the slope region,no reflections from the basement are visible because of strong seafloor multiple reflections which mask primary signals like the top of the basement (Fig.3).On profile 20020515high amplitudes can be found east of the high between CDP 2030and 3175.The subdivision of the acoustically thinly laminated section into unit I to unit IIIB could be made at the eastern end of this profile (Fig.3;CDP 20–1500)similar to profile 20020525(Fig.3;CDP 3700–5300).The north–south orientated profiles 20020510,20020540and 20020550(Fig.4)show thinly layered sediments at the northern end of these profiles.Correlation with the magnetic isochrons dated by Ehlers and Jokat (2008)shows that the location of the oldest magnetic isochron 6AA (21Myr)in the Molloy Basin (Gradstein et al.,2004)correlates with the western boundary of the thinly layered sediments (Fig.1).4.3.Boreas BasinThe Greenland Fracture zone (GFZ)separates the Greenland Basin from the Boreas Basin and the Boreas Basin is bound in the north by the Hovgård Ridge (Fig.1).The Boreas Basin alsoshowsFig.4.Seismic reflection profiles in the Molloy and Boreas basins.The location of the profiles is shown in Fig.1.The numbers with black arrows show the ties of the crossing profiles.C9on profile 20020700represents a magnetic anomaly (28Myr).NA-1and NA-2are seismic units,which are older and younger than middle Miocene (white dashed lines demonstrate the transition).The black lines represent the top of the acoustic basement.D.Berger,W.Jokat /Marine and Petroleum Geology 26(2009)1321–13371325a rough basement topography similar to the Molloy Basin.The identification of a continuous top basement event was not possible in the deep sea part,along the three northern west–east profiles 20020645,20020655and 20020665(Fig.5),as well as between CDP 10550and 15550on the northwest–southeast profile 20020700(Fig.4),which cover the Knipovich Ridge (Fig.1)in the southeast.The sedimentary strata in the Boreas Basin are divided into the two seismic megasequences NA-1and NA-2.The high amplitude reflector is observed in the deep sea part at a depth between 3.5and 4km on all profiles (Fig.5).Above this reflector,within unit NA-2near the top of the seabed,a 300m thick package of continuous reflections exists.The reflection pattern below the first 300m.b.s.f.has been characterized as transparent.At depths of 4km beneath the prominent reflector (unit NA-1)the data also show a transparent reflection character up to the top of the basement,where it could be identified (Fig.5;20020645,20020655,20020665,20020675).Also the north–south orientated profiles 20020620and 20020630(Fig.5)support the characteristic description of the reflection pattern in the deep sea area of the Boreas Basin.However,at the southern end of the profiles –south of the structural basement high (CDP 7100and CDP 1350,Fig.5)–the structure changes from transparent into thinly laminated sediments with decreasing penetration depth.The southernmost west–east profile in the Boreas Basin (Fig.5:20020675)also shows a thinly layered reflection pattern and a clearly identifiable basement structure in the deep sea portion.In general,the Boreas Basin contains a thinly layered sediment structure between 77 N and 77 300N (Fig.1)close to the GFZ.The western boundary of this area is located between magnetic isochron 9(28Myr)and isochron 13(33Myr)in the southern Boreas Basin (Gradstein et al.,2004).4.4.Prograding sequences on the East Greenland shelfEight seismic profiles from the Molloy Basin in the north to the Irminger Basin in the south (south of 65 N)provide an overview of shelf progradation along the East Greenland margin.All profiles cover the shelf (Fig.6)from west to east (profiles 1–3only the outer shelf area)and show different seismic packages,which have been interpreted to present prograding clinoforms.The profiles south of the Scoresby Sund were made available by StatoilHydro (Fig.6:KANU92E-5,KANU95-07)and the Geological Survey of Denmark and Greenland (Fig.6:GGU/82-02,GGU/81-04).These seismic reflection profiles are available in two way travel time.For a better comparison of the shelf structures from north to south we also imaged the northern profiles (Fig.6:AWI-97250,AWI-97270,AWI-20030390,AWI-20030550)as time sections.The deposits have been divided into sections with different characteristic geometries.4.4.1.Classification of shelf sediments along the East Greenland marginDue to the rough basement in the north,fracture zones (GFZ,JMFZ)along the margin,and variable sedimentation pattern it is not possible to carry out a consistent seismostratigraphic correlation of the shelf sediments from north to south.On the basis of the acoustic character and distribution of sedi-ments,we have classified the accumulated shelf sediments along the entire East Greenland shelf.The outcome of this is a subdivision of the shelf sediments into three seismic units (SU).SU-2and SU-3represent sediment packages interpreted as prograding clinoforms.SU-1is predominantly characterized by exclusive horizontal reflectors interpreted as aggrading strata.Reflector R3forms the base of SU-3and separates prograding strata above fromnon-Fig.5.Seismic reflection profiles in the Boreas Basin.The location of the profiles is shown in Fig.1.The numbers with black arrows show the ties of the crossing profiles.C9and C13on profile 20020675represent magnetic anomalies (28Myr and 33Myr).NA-1and NA-2are seismic units,which are older and younger than middle Miocene (white dashed lines demonstrate the transition).The black lines represent the top of the acoustic basement.D.Berger,W.Jokat /Marine and Petroleum Geology 26(2009)1321–13371326Fig.6.Development of the prograding sequences.Line drawing of eight seismic profiles running perpendicular to the East Greenland shelf from north to south.The overview map (top left)shows the location of the profiles (highlighted in red)arranged from north to south.SU-1–SU-3are seismic units;R1,R2and R3are reflectors separating seismic units.The profiles GGU/82-02and GGU/81-04are courtesy of GEUS.Profiles KANU95-07and KANU92E-5were made available by the KANUMAS partners.(For interpretation of colors in the figure legend,the reader is referred to the web version of the article.)D.Berger,W.Jokat /Marine and Petroleum Geology 26(2009)1321–13371327prograding strata below.Reflector R2separates SU-2and SU-3and provides the lower boundary of unit SU-2.The upper boundary of unit SU-3is represented by reflector R1.4.4.1.1.Prograding units(SU-2and SU-3).On all profiles from north to south along the East Greenland shelf,the dip angle of the foresets increases from the older SU-3to the younger SU-2.In general,the geometry of unit SU-3can be described as a mixture of truncated horizons and continuous sequences.On profiles AWI-20030390and KANU95-07some offlap terminations below an erosional surface R2 are evident(Fig.6).Unit SU-3was not identified on the two south-ernmost profiles GGU/82-02and GGU/81-04and on the northern profiles AWI-97270and AWI-97250(Fig.6).The lower part of unit SU-3seen on the KANUMAS data(Fig.6:KANU92E-5,KANU95-07), south of the Scoresby Sund,shows a very gently dip on the outer shelf. Around15km west of the shelf break,the continuous sequences develop a more aggradational character.The greatest amount of sediments in this unit is visible on the East Greenland shelf adjacent to the Greenland Basin(Fig.6:AWI-20030390,AWI-20030550).The base of unit SU-2,represented by reflector R2,defines the base of the truncated prograding clinoforms.In addition,unit SU-2 consists of strongly prograding foresets with dip angles increasing from the older part to the younger part of the shelf sediments.In comparison to unit SU-3,aggradational topsets are missing and the prograding clinoforms in unit SU-2are characterized by sharp truncations at the top,at boundary R1.Within unit SU-2steep foresets up to the shelf edge are visible.The steepest dip angle of all foresets is seen on the outer shelf on the southernmost profile (Fig.6:GGU/81-04).On all profiles sharp truncations of the upper part of the prograding sequences from the combination of trun-cated horizons,continuous sequences and gentle dips of the fore-sets in unit SU-2are visible.The greatest sediment accumulation in this unit was observed on the two southernmost profiles GGU/82-02and GGU/81-04over a shelf distance of70km.Seen on profile GGU/82-02on the eastern end of the shelf,a sediment package exhibits the typical aggradational character.The beginning of the non-prograding sediment bedding on this profile starts approxi-mately25km westward of the present shelf edge.The base of this formation is formed by R1(Fig.6).4.4.1.2.Top unit(SU-1).Most of the prograding sequences are overlain by a top unit(SU-1),which is characterized by acoustically horizontal layers(Fig.6).The thickness of unit SU-1differs from line to line.For example,profile AWI-97250shows an increase in sedi-ment thickness of unit SU-1towards the shelf edge,but towards profile AWI-97270,it shows a decrease in sediment thickness (Fig.6).On both of these profiles,however,the sea bottom appears quite irregular.In the shelf region adjacent to the Greenland Basin, the thickness of unit SU-1can be described as nearly constant.The unit SU-1on the northern KANUMAS profile(Fig.6:KANU92E-5)is thinner on the inner shelf than on the outer shelf.This profile shows the thickest succession of unit SU-1of all imaged west–east profiles. In the two southernmost profiles(Fig.6:GGU/82-02;GGU/81-04) unit SU-1is absent or below seismic resolution.In general,the southern profiles look completely different compared to the northern ones,as reflector R1is missing and thus the prograding foresets of SU-2are truncated above by the seafloor.5.Interpretation5.1.Sediment accumulation in the basins along the East Greenland marginFor the calculation of sediment thickness maps along the East Greenland margin,the Geological Survey of Denmark and Greenland(GEUS)has made available datasets south of72 N.The data north of72 N provide information concerning sedimenta-tion into the deep basins along the northern East Greenland margin.The GEUS data in the south cover only the shelf and upper slope area.After a depth conversion(velocity of2km/s for the sediment package,Larsen et al.,1994)of the processed time sections from the GEUS,the data were used to map the total sediment thicknesses along the entire East Greenland margin. However,north of72 N,a detailed analysis of the sediment succession(subdivision of sediments older and younger as middle Miocene)could be made,on the basis of an age correla-tion from ODP Site913located in the deep Greenland Basin (Berger and Jokat,2008)and our correlation from ODP Site909in the deep Molloy Basin.The results from Berger and Jokat(2008)have also been included into the sediment thickness maps.Berger and Jokat(2008) classified,sediments within the Greenland Basin younger and older than middle Miocene.Therefore,we joined unit GB-2(Berger and Jokat,2008)with unit NA-2and unit GB-1with unit NA-1.The correlation in the Boreas Basin is based on the interpolation along the north–south profiles20020540(Fig.4)and20020620(Fig.5). The rough basement structure along the other north–south profiles from the Molloy Basin into the Boreas Basin prevents correlation into the southern basin.Different sediment thickness maps are introduced and dis-cussed below(Fig.7),and include unit I to unit IIIA(Fig.8),unit NA-1(Fig.9),unit NA-2(Fig.10).5.1.1.Total sediment thicknessThe total sediment thickness(Fig.7)was calculated as the depth difference between the acoustic basement and the seafloor.No continuous increasing or decreasing trends in thickness could be observed.The thickest sediments(3.3km)were accumulated in the prolongation of the Scoresby Sund at70 N,as a major glacial wedge (Dowdeswell et al.,1997).Some of the material(w3000m)of the glacial fan was deposited southwards as far as67 300N,probably influenced by the movement of the East Greenland Current(Rudels et al.,2002).A comparison of the three northern basins between74 N and80 N indicates the thickest sediments are accumulated in the Boreas Basin as a2.7km thick succession(Fig.7).An average of 2.3km of sediment was deposited in the adjacent northern Molloy Basin,while in the Greenland Basin a total sediment thickness of approximately1km accumulated(Fig.7).Much more significant is the volume of sediments with respect to the size of the accumulation area.Volume estimations for the Molloy,Boreas and Greenland basins include,1)for an area of 8.68Â104km2,a volume of11.88Â104km3,2)for an area of2.05Â104km2,a volume of3.83Â104km3and3)for an area of 2.65Â104km2,a volume of 4.21Â104km3,respectively.To compare the total sediment volume,we calculated the volume for a consistent reference level of1.0Â104km2(Table1).The results are a total volume of sediment of1.37Â104km3for the Greenland Basin,1.87Â104km3for the Boreas Basin and1.59Â104km3for the Molloy Basin(Table1).This indicates a relative difference in sediment accumulation of26.7%for the Greenland Basin compared to the Boreas Basin.The Molloy Basin contains15%less sediment than in the southern Boreas Basin and14.8%more sediment than in the Greenland Basin.The lower relative sediment accumulation in the Greenland Basin is due to the absence of basement highs in the slope region (Berger and Jokat,2008;Hinz et al.,1987).These observed base-ment highs,presumably a360km long volcanic basement structure (Berger and Jokat,2008)between77 N and74 540N,prevented continuous sediment transport from the East Greenland shelf intoD.Berger,W.Jokat/Marine and Petroleum Geology26(2009)1321–1337 1328。

Memory Module Replacement InstructionsBefore you beginObserve the following requirements before removing and replacing memory.WARNING : Never open the cover while the power cord is attached. You might damage your computer or be injured by the spinning fan blades.WARNING : Avoid touching sharp edges inside the computer.CAUTION : Static electricity can damage the electroniccomponents inside the computer. Discharge static electricity by touching the metal cage of the computer before touching any internal parts or electronic components. Tools neededPhillips #2 screwdriver Hex toolSmall screws are easily lost. Remove screws over a surface that enables you to retrieve them if they fall.TroubleshootingIf the computer displays a memory error after you have turned it back on, turn the computer off and unplug the power cord. Open up the memory compartment and make sure the memory module is inserted all the way into the slot, and then press down on it to be sure it is firmly seated.Memory compatibilityThe computer uses SODIMMs (small outline dual in-line memory modules) that must meet the following requirements: ● 204-pin ● DDR4-2133● Unbuffered, non-ECC (64-bit)● 1.2 V● 16 GB maximum installable memoryBecause the memory uses dual channels, you must use the same memory module type for both sockets.NOTE : The actual memory transfer speed might vary, based on the processor used in your computer.NOTE : Memory performance might vary due to different system configurations.Removing the memory module1. Disconnect the power cord and all attached cables from the back of the computer.854285-0012. Using caution, lay the computer down on a flat surface covered with a soft cloth.3. To remove the stand, rotate it upward(1), remove the four hex screws (2), and then lift the stand up and off the computer (3).4. To remove the rear cover, remove the two screw covers (1) and two Phillips screws (2) located in the bottom of the cover. Lift off the cover, and then place it upside down next to the computer(3). The optical drive ismounted on the inside of the rear cover, and a cableconnects it to the system board.5. Locate the memory modules: 1. Hard drive 2.Memory modules6. Remove the five Phillips screws that secure the system board cover (1), and then lift the cover off the computer (2).7. Spread the two retention clips outward (1) until the memory module tilts up at a 45-degree angle. Remove the module (2). Use the same procedure to remove both memory modules.8. Touch the replacement memory module bag to the metal of the computer, and then remove the replacement memory module from the bag.Replacing the memory module1. Align the notched edge of the module with the tab in the slot, and then press the module into the slot at an angle until it is seated (1). Press down on the module until the side retention clips snap into place (2).NOTE : Memorymodules are notched to prevent incorrect insertion.2. Position the system board cover over the system board (1), and then replace the five Phillips screws (2).3. Align the rear cover with the computer and press itdown until it snaps into place (1). Replace the two Phillips screws (2), and then replace the screw covers(3).4. Position the top of the stand on the computer (1), and then replace the four hex screws (2). Rotate the stand downward (3).5. Plug the power cord and any additional cables into the back of the computer.6. Press the power button to turn on the computer.© Copyright 2016 HP Development Company, L.P.The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying suchproducts and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.First Edition: May 2016PRINTER: Replace this bo x with Pr inted- In (PI)Statement(s) as per spec.NOTE: This box is simply a placeho lder. PI Statement(s) do n ot have to fit inside the box but sh ould be placed in this area.。

Effective Date:Bulletin Issue Date:11/10/202011/10/2020Description of ChangeSilicon Labs is pleased to announce the release of datasheet version 1.3 for the C8051F39x/37x devices.The previous datasheet v1.2 release bulletin (190222485) incorrectly did not list the reelbox (-GMR) ordering part numbers. For clarification, both tray (-GM) and reelbox (-GMR) ordering part numbers were affected.201110928 C8051F39x/37x Datasheet Release v1.3Product IdentificationExisting Part #C8051F390-A-GMC8051F390-A-GMRC8051F391-A-GMC8051F391-A-GMRC8051F392-A-GMC8051F392-A-GMRC8051F393-A-GMC8051F393-A-GMRC8051F394-A-GMC8051F394-A-GMRC8051F395-A-GMC8051F395-A-GMRC8051F396-A-GMC8051F396-A-GMRC8051F397-A-GMC8051F397-A-GMRC8051F398-A-GMC8051F398-A-GMRC8051F399-A-GMC8051F399-A-GMRThis change is considered a minor change which does not affect form, fit, function, quality, or reliability. The information is being provided as a customer courtesy.Please contact your local Silicon Labs sales representative with any questions about this notification. A list of Silicon Labs sales representatives may be found at .Reason for ChangeRevision 1.2 to Revision 1.3Updated Table 2.1, “Product Selection Guide,” on page 20 to show that the C8051F37x devices are end of life.C8051F370-A-GMC8051F370-A-GMRC8051F371-A-GMC8051F371-A-GMRC8051F374-A-GMC8051F374-A-GMRC8051F375-A-GMC8051F375-A-GMRCustomer Actions Needed:NoneUser RegistrationRegister today to create your account on . Your personalized profile allows you to receive technical document updates, new product announcements, “how-to” and design documents, product change notices (PCN) and other valuable content available only to registered users. /profileSilicon Laboratories Inc.400 West Cesar ChavezAustin, TX 78701 DisclaimerSilicon Labs intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Labs products. Characterization data, available modules andperipherals, memory sizes and memory addresses refer to each specific device, and "Typical" parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. Silicon Labs reserves the right to make changes without further notice and limitation to product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Silicon Labs shall have no liability for the consequences of use of the information supplied herein. This document does not imply or express copyright licenses granted hereunder to design or fabricate any integrated circuits. The products are not designed or authorized to be used within any Life Support System without the specific written consent of Silicon Labs. A "Life Support System" is any product or system intended to support or sustain life and/or health, which, if it fails, can be reasonably expected to result in significant personal injury or death. Silicon Labs products are not designed or authorized for military applications. Silicon Labs products shall under no circumstances be used in weapons of mass destruction including (but not limited to) nuclear, biological or chemical weapons, or missiles capable of delivering such weapons.Trademark InformationSilicon Laboratories Inc.® , Silicon Laboratories®, Silicon Labs®, SiLabs® and the Silicon Labs logo®, Bluegiga®, Bluegiga Logo®,Clockbuilder®, CMEMS®, DSPLL®, EFM®, EFM32®, EFR, Ember®, Energy Micro, Energy Micro logo and combinations thereof, "the world’s most energy friendly microcontrollers", Ember®, EZLink®, EZRadio®, EZRadioPRO®, Gecko®, ISOmodem®, Micrium, Precision32®, ProSLIC®, Simplicity Studio®, SiPHY®, Telegesis, the Telegesis Logo®, USBXpress®, Zentri and others are trademarks or registered trademarks of Silicon Labs. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings. Keil is aregistered trademark of ARM Limited. All other products or brand names mentioned herein are trademarks of their respective holders.。

E/ECE/324 )Rev.1/Add.94/Amend.4/Corr.1E/ECE/TRANS/505 )February 21, 2005STATUS OF UNITED NATIONS REGULATIONECE 95UNIFORM PROVISIONS CONCERNING THE APPROVAL OF:VEHICLES WITH REGARD TO THE PROTECTION OF THEOCCUPANTS IN THE EVENT OF A LATERAL COLLISIONIncorporating:00 series of amendments Date of Entry into Force: 06.07.95 Corr. 2 to 00 series of amendments Date of Entry into Force: 10.03.95 01 series of amendments Date of Entry into Force: 12.08.98 Supplement 1 to the 01 series of amendments Date of Entry into Force: 14.11.99 Corr. 1 to the 01 series of amendments Date of Entry into Force: 08.11.00 Corr. 3 to the 00 series of amendments Date of Entry into Force: 26.06.02 02 series of amendments Date of Entry into Force: 16.07.03 Supplement 1 to the 02 series of amendments Date of Entry into Force: 12.08.04E/ECE/324 )Rev.1/Add.94/Amend.4/Corr.1E/ECE/TRANS/505 )February 21, 2005UNITED NATIONSAGREEMENTCONCERNING THE ADOPTION OF UNIFORM TECHNICAL PRESCRIPTIONS FOR WHEELED VEHICLES, EQUIPMENT AND PARTS WHICH CAN BE FITTED AND/OR BE USED ON WHEELED VEHICLES AND THE CONDITIONS FOR RECIPROCAL RECOGNITION OF APPROVALS GRANTED ON THE BASIS OF THESE PRESCRIPTIONS (*) (Revision 2, including the amendments which entered into force on October 16, 1995)Addendum 94: Regulation No. 95Amendment 4− ErratumUNIFORM PROVISIONS CONCERNING THE APPROVAL OF VEHICLES WITH REGARD TO THE PROTECTION OF THE OCCUPANTS IN THE EVENT OF A LATERAL COLLISION(*)Former title of the Agreement:Agreement Concerning the Adoption of Uniform Conditions of Approval and Reciprocal Recognition of Approval for Motor Vehicle Equipment and Parts, done at Geneva on March 20, 1958.REGULATION NO. 95UNIFORM PROVISIONS CONCERNING THE APPROVAL OF VEHICLES WITH REGARD TO THE PROTECTION OF THE OCCUPANTS IN THE EVENT OF A LATERAL COLLISIONCONTENTSREGULATION1. Scope2. Definitions3. Application for approval4. Approval5. Specifications and tests6. Modification of the vehicle type7. Conformity of production8. Penalties for non-conformity of production9. Production definitely discontinuedprovisions10. Transitional11. Names and addresses of technical services responsible for conducting approval tests, and ofadministrative departmentsANNEXESAnnex 1 - Communication concerning the approval or extension or refusal or withdrawal of approval or production definitely discontinued of a vehicle type with regard to protection of occupants inthe event of a lateral collision, pursuant to Regulation No. 95Annex 2 - Arrangements of the approval markAnnex 3 -Procedure for determining the "H" Point and the actual torso angle for seating positions in motor vehiclesAppendix 1 -Description of the three dimensional "H" Point machine (3-D H machine)Appendix 2 -Three dimensional reference systemAppendix 3 -Reference data concerning seating positionsAnnex 4 -Collision test procedureAppendix 1 -Determination of performance dataAppendix 2 -The procedure for calculating the viscous criterion for EUROSID 1REGULATION NO. 95Annex 5 -Mobile deformable barrier characteristicsAppendix 1 - Force-deflection curves for static testsAppendix 2 - Force-deflection curves for dynamic tests Annex 6 -Technical description of the side impact dummyAnnex 7 -Installation of the side impact dummyAnnex 8 - Partial testREGULATION NO. 951.SCOPEThis Regulation applies to the lateral collision behaviour of the structure of the passengercompartment of M1 and N1 categories of vehicles where the R Point of the lowest seat is notmore than 700 mm from ground level when the vehicle is in the condition corresponding to thereference mass defined in Paragraph 2.10. of this Regulation.2.DEFINITIONSFor the purposes of this Regulation:2.1."Approval of a vehicle" means the approval of a vehicle type with regard to the behaviour ofthe structure of the passenger compartment in a lateral collision;2.2."Vehicle type" means a category of power-driven vehicles which do not differ in suchessential respects as:2.2.1.the length, width and ground clearance of the vehicle, in so far as they have a negative effecton the performance prescribed in this Regulation;2.2.2.the structure, dimensions, lines and materials of the side walls of the passenger compartmentin so far as they have a negative effect on the performance prescribed in this Regulation;2.2.3.the lines and inside dimensions of the passenger compartment and the type of protectivesystems, in so far as they have a negative effect-on the performance prescribed in thisRegulation;2.2.4.the siting of the engine (front, rear or centre);2.2.5.the unladen mass, in so far as there is a negative effect on the performance prescribed in thisRegulation;2.2.6.the optional arrangements or interior fittings in so far as they have a negative effect on theperformance prescribed in this Regulation;2.2.7.the type of front seat(s) and position of the "R" Point in so far as they have a negative effecton the performance prescribed in this Regulation;2.3."Passenger compartment" means the space for occupant accommodation, bounded by theroof, floor, side walls, doors, outside glazing and front bulkhead and the plane of the rearcompartment bulkhead or the plane of the rear-seat back support;2.4."R Point" or "seating reference point" means the reference point specified by the vehiclemanufacturer which:2.4.1.has co-ordinates determined in relation to the vehicle structure;2.4.2.corresponds to the theoretical position of the point of torso/thighs rotation (H Point) for thelowest and most rearward normal driving position or position of use given by the vehiclemanufacturer for each seating position specified by him;2.5."H Point" is as established by Annex 3 to this Regulation;2.6."Capacity of the fuel tanks" means the fuel-tank capacity as specified by the manufacturerof the vehicle;2.7."Transverse plane" means a vertical plane perpendicular to the median longitudinal verticalplane of the vehicle;2.8."Protective system" means devices intended to restrain and/or protect the occupants;2.9."Type of protective system" means a category of protective devices which do not differ insuch essential respects as their:technologygeometryconstituent materials;2.10."Reference mass" means the unladen mass of the vehicle increased by a mass of 100 kg(that is the mass of the side impact dummy and its instrumentation);2.11."Unladen mass" means the mass of the vehicle in running order without driver, passengersor load, but with the fuel tank filled to 90% of its capacity and the usual set of tools and sparewheel on board, where applicable;2.12."Mobile deformable barrier" means the apparatus with which the test vehicle is impacted. Itconsists of a trolley and an impactor;2.13."Impactor" means a crushable section mounted on the front of mobile deformable barrier;2.14."Trolley" means a wheeled frame free to travel along its longitudinal axis at the point ofimpact. Its front supports the impactor.3.APPLICATION FOR APPROVAL3.1.The application for approval of a vehicle type with regard to the protection of the occupants inthe event of a lateral collision shall be submitted by the vehicle manufacturer or by his dulyaccredited representative.3.2.It shall be accompanied by the undermentioned documents in triplicate and the followingparticulars:3.2.1. a detailed description of the vehicle type with respect to its structure, dimensions, lines andconstituent materials;3.2.2.photographs and/or diagrams and drawings of the vehicle showing the vehicle type in front,side and rear elevation and design details of the lateral part of the structure;3.2.3.particulars of the vehicle's mass as defined by Paragraph 2.11. of this Regulation;3.2.4.the lines and inside dimensions of the passenger compartment;3.2.5. a description of the relevant side interior fittings and protective systems installed in thevehicle.3.3.The applicant for approval shall be entitled to present any data and results of tests carried outwhich make it possible to establish that compliance with the requirements can be achieved onprototype vehicles with a sufficient degree of accuracy.3.4. A vehicle which is representative of the type to be approved shall be submitted to thetechnical service responsible for conducting the approval tests.3.4.1. A vehicle not comprising all the components proper to the type may be accepted for testsprovided that it can be shown that the absence of the components omitted has no detrimentaleffect on the performance prescribed in the requirements of this Regulation.3.4.2.It shall be the responsibility of the applicant for approval to show that the application ofParagraph 3.4.1 is in compliance with the requirements of this Regulation.4.APPROVAL4.1.If the vehicle type submitted for approval pursuant to this Regulation meets the requirementsof Paragraph 5 below, approval of that vehicle type shall be granted.4.2.In case of doubt, account shall be taken, when verifying the conformity of the vehicle to therequirements of this Regulation, of any data or test results provided by the manufacturerwhich can be taken into consideration in validating the approval test carried out by thetechnical service.4.3.An approval number shall be assigned to each type approved. Its first two digits (at present01 corresponding to the 01 series of amendments) shall indicate the series of amendmentsincorporating the most recent major technical amendments made to the Regulation at the timeof issue of the approval. The same Contracting Party may not assign the same approvalnumber to another vehicle type.4.4.Notice of approval or of extension or of refusal of approval of a vehicle type pursuant to thisRegulation shall be communicated by the Parties to the Agreement applying this Regulationby means of a form conforming to the model in Annex l to this Regulation and photographsand/or diagrams and drawings supplied by the applicant for approval, in a format notexceeding A4 (210 x 297) mm or folded to that format and on an appropriate scale.4.5.There shall be affixed to every vehicle conforming to a vehicle type approved under thisRegulation, conspicuously and in a readily accessible place specified on the approval form, aninternational approval mark consisting of:4.5.1. a circle surrounding the Letter "E" followed by the distinguishing number of the country whichhas granted approval; (1)(1)1 for Germany,2 for France,3 for Italy,4 for the Netherlands,5 for Sweden,6 for Belgium,7 for Hungary,8 for the CzechRepublic, 9 for Spain, 10 for Yugoslavia, 11 for the United Kingdom, 12 for Austria, 13 for Luxembourg, 14 for Switzerland,15 (vacant), 16 for Norway, 17 for Finland, 18 for Denmark, 19 for Romania, 20 for Poland, 21 for Portugal, 22 for theRussian Federation, 23 for Greece, 24 for Ireland, 25 for Croatia, 26 for Slovenia, 27 for Slovakia, 28 for Belarus, 29 for Estonia, 30 (vacant), 31 for Bosnia and Herzegovina, 32 for Latvia, 33 (vacant), 34 for Bulgaria, 35-36 (vacant), 37 for Turkey, 38-39 (vacant), 40 for The former Yugoslav Republic of Macedonia, 41 (vacant), 42 for the European Community (Approvals are granted by its Member States using their respective ECE symbol), 43 for Japan, 44 (vacant), 45 fort Australia and 46 for Ukraine. Subsequent numbers shall be assigned to other countries in the chronological order in which they ratify the Agreement Concerning the Adoption of Uniform Technical Prescriptions for Wheeled Vehicles, Equipment and Parts which can be Fitted and/or be Used on Wheeled Vehicles and the Conditions of for Reciprocal Recognition of Approvals Granted on the Basis of these Prescriptions for Motor Vehicle Equipment and Parts, or in which they accede to that Agreement, and the numbers thus assigned shall be communicated by the Secretary-General of the United Nations to the Contracting Parties to the Agreement.4.5.2.the number of this Regulation, followed by the Letter "R", a dash and the approval number, tothe right of the circle prescribed in Paragraph 4.5.1.4.6.If the vehicle conforms to a vehicle type approved, under one or more other RegulationsAnnexed to the Agreement, in the country which has granted approval under this Regulation,the symbol prescribed in Paragraph 4.5.1. need not be repeated; in this case the Regulationand approval numbers and the additional symbols of all the Regulations under which approvalhas been granted in the country which has granted approval under this Regulation shall beplaced in vertical columns to the right of the symbol prescribed in Paragraph 4.5.1.4.7.The approval mark shall be clearly legible and shall be indelible.4.8.The approval mark shall be placed close to or on the vehicle data plate affixed by themanufacturer.4.9.Annex 2 to this Regulation gives examples of approval marks.5.SPECIFICATIONS AND TESTS5.1.The vehicle shall undergo a test in accordance with Annex 4 to this Regulation.5.1.1.The test will be carried out on the driver's side unless asymmetric side structures, if any, areso different as to affect the performance in a side impact. In that case either of thealternatives in Paragraph 5.1.1.1. or 5.1.1.2. may be used by agreement between themanufacturer and test authority.5.1.1.1. The manufacturer will provide the authority responsible for approval with information regardingthe compatibility of performances in comparison with the driver's side when the test is beingcarried out on that side.5.1.1.2. The approval authority, if concerned as to the construction of the vehicle, will decide to havethe test performed on the side opposite the driver, this being considered the least favourable.5.1.2.The Technical Service, after consultation with the manufacturer, may require the test to becarried out with the seat in a position other than the one indicated in Paragraph 5.5.1. ofAnnex 4. This position shall be indicated in the test report. (1)5.1.3.The result of this test shall be considered satisfactory if the conditions set out inParagraphs 5.2. and 5.3. below are satisfied.5.2.Performance criteria5.2.1.The performance criteria, as determined for the collision test in accordance with the Appendixto Annex 4 to this Regulation shall meet the following conditions:5.2.1.1. the head performance criterion (HPC) shall be less than or equal to 1,000; when there is nohead contact, then the HPC shall not be measured or calculated but recorded as "No HeadContact."(1)Until September 30, 2000, for the purposes of the test requirements, the range of normal longitudinal adjustments shall be limited such that the H-point lies within the length of the door aperture.5.2.1.2. the thorax performance criteria shall be:(a) Rib Deflection Criterion (RDC) less than or equal to 42 mm;(b) Soft Tissue Criterion (VC) less or equal to 1.0 m/sec.For a transitional period of two years after the date specified in Paragraph 10.2. of thisRegulation the V * C value is not a pass/fail criterion for the approval testing, but this valuehas to be recorded in the test report and to be collected by the approval authorities. After thistransitional period, the VC value of 1.0 m/sec shall apply as a pass/fail criterion unless theContracting Parties applying this Regulation decide otherwise.5.2.1.3. the pelvis performance criterion shall be:Pubic Symphysis Peak Force (PSPF) less than or equal to 6 kN.performance criterion shall be:5.2.1.4. theabdomenAbdominal Peak Force (APF) less than or equal to 2.5 kN internal force (equivalent to externalforce of 4.5 kN).5.3.Particular Requirements5.3.1.No door shall open during the test.5.3.2.After the impact, it shall be possible without the use of tools to:5.3.2.1 open a sufficient number of doors provided for normal entry and exit of passengers, and ifnecessary tilt the seat-backs or seats to allow evacuation of all occupants;5 3.2.2. release the dummy from the protective system;5.3.2.3. remove the dummy from the vehicle;5.3.3.no interior device or component shall become detached in such a way as noticeably toincrease the risk of injury from sharp projections or jagged edges;5.3.4.ruptures, resulting from permanent deformation are acceptable, provided these do notincrease the risk of injury;5.3.5.if there is continuous leakage of liquid from the fuel-feed installation after the collision, the rateof leakage shall not exceed 30 g/min; if the liquid from the fuel-feed system mixes with liquidsfrom the other systems and the various liquids cannot easily be separated and identified, allthe liquids collected shall be taken into account in evaluating the continuous leakage.6.MODIFICATION OF THE VEHICLE TYPE6.1.Any modification affecting the structure, the number and type of seats, the interior trim orfittings, or the position of the vehicle controls or of mechanical parts which might affect theenergy-absorption capacity of the side of the vehicle, shall be brought to the notice of theadministrative department granting approval. The department may then either:6.1.1.consider that the modifications made are unlikely to have an appreciable adverse effect andthat in any case the vehicle still complies with the requirements, or6.1.2.require a further test report from the technical service responsible for conducting the tests;6.1.2.1. Any modification of the vehicle affecting the general form of the structure of the vehicle or anyvariation in the reference mass greater than 8% which in the judgement of the authority wouldhave a marked influence on the results of the test shall require a repetition of the test asdescribed in Annex 4.6.1.2.2. If the technical service, after consultation with the vehicle manufacturer, considers thatmodifications to a vehicle type are insufficient to warrant a complete retest then a partial testmay be used. This would be the case if the reference mass is not more than 8% differentfrom the original vehicle or the number of front seats is unchanged. Variations of seat type orinterior fittings need not automatically entail a full retest. An example of the approach to thisproblem is given in Annex 8.6.2.Confirmation or refusal of approval, specifying the alteration, shall be communicated by theprocedure specified in Paragraph 4.4. above to the Parties to the Agreement which apply thisRegulation.6.3.The competent authority issuing an extension of approval shall assign a series number toeach communication form drawn up for such an extension.7.CONFORMITY OF PRODUCTIONThe conformity of production procedures shall comply with those set out in the Agreement,Appendix 2 (E/ECE/324-E/ECE/TRANS/505/Rev.2), with the following requirements:7.1.Every vehicle approved under this Regulation shall be so manufactured as to conform to thetype approved by meeting the requirements set out in Paragraph 5 above.7.2.The holder of the approval shall ensure that for each type of vehicle at least the testsconcerning the taking of measurements are carried out.7.3.The authority which has granted type approval may at any time verify the conformity controlmethods applied in each production facility. The normal frequency of these verifications shallbe once every two years.8.PENALTIES FOR NON-CONFORMITY OF PRODUCTION8.1.The approval granted in respect of a vehicle type, pursuant to this Regulation, may bewithdrawn if the requirement laid down in Paragraph 7.1. above is not complied with, or if thevehicle or vehicles selected have failed to pass the checks prescribed in Paragraph 7.2.above.8.2.If a Contracting Party to the Agreement applying this Regulation withdraws an approval it haspreviously granted, it shall forthwith so notify the other Contracting Parties applying thisRegulation by means of a communication form conforming to the model in Annex 1 to thisRegulation.9.PRODUCTION DEFINITELY DISCONTINUEDIf the holder of the approval completely ceases to manufacturer a type of vehicle approved inaccordance with this Regulation, he shall so inform the authority which granted theapproval. Upon receiving the relevant communication that authority shall inform thereof theother Parties to the 1958 Agreement applying this Regulation by means of a communicationform conforming to the model in Annex 1 to this Regulation.PROVISIONS10. TRANSITIONAL10.1.As from the official date of entry into force of Supplement 1 to the 02 series of amendments,no Contracting Party applying this Regulation shall refuse to grant ECE approval under thisRegulation as amended by Supplement 1 to the 02 series of amendments.10.2.As from 12 months after the entry into force of the 02 series of amendments ContractingParties applying this Regulation shall grant ECE approvals only to those types of vehicleswhich comply with the requirements of this Regulation as amended by the 02 series ofamendments.10.3.As from 60 months after the entry into service of the 02 series of amendments ContractingParties applying this Regulation may refuse first national registration (first entry into service) ofvehicles which do not meet the requirements of this Regulation as amended by the 02 seriesof amendments.10.4.As from 36 months after the entry into force of Supplement 1 to the 02 series of amendmentsContracting Parties applying this Regulation shall grant ECE approvals only to those types ofvehicles which comply with the requirements of this Regulation, as amended by Supplement 1to the 02 series of amendments.10.5.As from 84 months after the entry into force of Supplement 1 to the 02 series of amendmentsContracting Parties applying this Regulation may refuse first national registration (first entryinto service) of vehicles which do not meet the requirements of this Regulation as amendedby Supplement 1 to the 02 series of amendments.S AND ADDRESSES OF TECHNICAL SERVICES RESPONSIBLE FORCONDUCTING APPROVAL TESTS, AND OF ADMINISTRATIVE DEPARTMENTSThe Contracting Parties to the Agreement applying this Regulation shall communicate to theUnited Nations secretariat the names and addresses of the technical services responsible forconducting approval tests, and of the administrative departments which grant approval and towhich forms certifying approval or extension, or refusal or withdrawal of approval, issued inother countries, are to be sent.ANNEX 1(maximum format: A4 (210 x 297 mm))COMMUNICATIONissued by: Name of administration:(1) ............................................................................................................................................................GRANTEDconcerning: (2) APPROVALAPPROVAL EXTENDEDAPPROVAL REFUSEDAPPROVAL WITHDRAWNPRODUCTION DEFINITELY DISCONTINUEDof a vehicle type with regard to protection of occupants in the event of a lateral collision pursuant to Regulation No. 95Approval No. ..... Extension No.............l. Trade name or mark of the power-driven vehicle................................................................................2. Vehicle type .........................................................................................................................................name and address ......................................................................................................3. Manufacturer's4. If applicable name and address of manufacturer's representative .....................................................submitted for approval on .......................................................................................................5. Vehicle6. Side impact dummy utilized ES-1/ES-2. (2)7. Technical service responsible for conducting approval tests ..............................................................test report ................................................................................................................................of8. Datetest report ..........................................................................................................................of9. Numbergranted/refused/extended/withdrawn. (2)...............................................................................10. Approval11. Position of approval mark on the vehicle.............................................................................................12. Place.....................................................................................................................................................(1)Distinguishing number of the country which has granted/extended/refused/withdrawn approval (see approval provisions in the Regulation).(2)Strike out what does not apply.13. Date......................................................................................................................................................14. Signature..............................................................................................................................................15. The list of documents deposited with the Administrative Service which has granted approval isAnnexed to this communication and may be obtained on request.ANNEX 2ARRANGEMENTS OF THE APPROVAL MARKMODEL A(See Paragraph 4.5. of this Regulation)The above approval mark affixed to a vehicle shows that the vehicle type concerned has, with regard to the protection of the occupants in the event of a lateral collision, been approved in the Netherlands (E4) pursuant to Regulation No. 95. The approval number indicates that the approval was granted in accordance with the requirements of Regulation No. 95 as amended by the 01 series of amendments.MODEL B(See Paragraph 4.6. of this Regulation)The above approval mark affixed to a vehicle shows that the vehicle type concerned has been approved in the Netherlands (E4) pursuant to Regulations Nos. 95 and 24 (1) (In the case of the latter Regulation, the additional symbol which follows the Regulation number indicates that the corrected absorption co-efficient is 1.30 m-1). The first two approval numbers indicate that at the date when the respective approvals were granted, Regulation 95 incorporated the 01 series of amendments and Regulation No. 24 incorporated the 03 series of amendments.(1)The latter number is given only as an example.ANNEX 3PROCEDURE FOR DETERMINING THE "H" POINT AND THE ACTUALTORSO ANGLE FOR SEATING POSITIONS IN MOTOR VEHICLES1.PURPOSEThe procedure described in this Annex is used to establish the "H" Point location and theactual torso angle for one or several seating positions in a motor vehicle and to verify therelationship of measured data to design specifications given by the vehicle manufacturer. (1) 2.DEFINITIONSFor the purposes of this Annex:2.1."Reference data" means one or several of the following characteristics of a seating position: 2.1.1.the "H" Point and the "R" Point and their relationship,2.1.2.the actual torso angle and the design torso angle and their relationship.2.2."Three-dimensional 'H' Point machine" (3-D H machine) means the device used for thedetermination of "H" Points and actual torso angles. This device is described in Appendix l tothis Annex;2.3." 'H' Point" means the pivot centre of the torso and the thigh of the 3-D H machine installedin the vehicle seat in accordance with Paragraph 4 below. The "H" Point is located in thecentre of the centreline of' the device which is between the "H" Point sight buttons on eitherside of the 3-D H machine. The "H" Point corresponds, theoretically to the "R" Point (fortolerances see Paragraph 3.2.2. below). Once determined in accordance with the proceduredescribed in Paragraph 4, the "H" Point is considered fixed in relation to the seat-cushionstructure and to move with it when the seat is adjusted;2.4." 'R' Point" or "seating reference point" means a design point defined by the vehiclemanufacturer for each seating position and established with respect to the three-dimensionalreference system;2.5."Torso-line" means the centreline of the probe of the 3-D H machine with the probe in thefully rearward position;2.6."Actual torso angle" means the angle measured between a vertical line through the"H" Point and the torso line using the back angle quadrant on the 3-D H machine. The actualtorso angle corresponds theoretically to the design torso angle (for tolerances seeParagraph 3.2.2. below):2.7."Design torso angle" means the angle measures between a vertical line through the"R" Point and the torso line in a position which corresponds to the design position of theseat-back established by the vehicle manufacturer;(1)In any seating position other than front seats where the "H" point cannot be determined using the "Three-dimensional 'H' point machine" or procedures, the "R" point indicated by the manufacturer may be taken as a reference at the discretion of the competent authority.。

ROS自动禁用到期的PPPOE账号
首先在PPPOE账号加个备注，也就是comment
备注的内容是日期
注意：日期格式非常严格。

月/日/年；
月份是英文月份的头三个字母，全部小写
日为两位数字，不够的加补足
如：2006年3月8日写成“mar/08/2006”
英文1-12月对照表
January——1月
February——2月
March-----3月
April——4月
May——5月
June——6月
July——7月
August——8月
September——9月
October——10月
November——11月
December——12月
添加一个定时运行的脚本，每天运行一次
/system scheduler
add name="dis_overdue" on-event="/ppp secret disable [/ppp secret find comment=[/system clock get date]]"
interval=1d
ROS会每天检查一次PPPOE账号有没有过期
添加脚本
到了2010年8月10日后，我们再来看下效果
帐号很明显就被禁止了，代表已经到期了。