1140使用说明书

使用说明书QJZ-1600/1140(660)-8 矿用隔爆兼本质安全型组合开关电光防爆电气有限公司使用前请认真阅读说明书！一、概述1．QJZ系列矿用隔爆兼本质安全型组合开关（以下简称组合开关）适用于有甲烷及煤尘爆炸危险的煤矿井下。

在交流50Hz，电压为1140V供电线路中，可对乳化液泵、喷雾泵、转载机、破碎机的启动、停止及双速切换、主、从顺序控制，并能对电动机及供电线路进行保护。

2．组合开关采用快速开门结构，结构简单合理，操作方便；开关采用微机控制线路，实现开关的多功能（多用途）使开关既能作为普通开关使用，又能作为双速开关使用，便于管理和维护。

本开关容量大，相对体积小。

3．组合开关保护单元采用WZBQ-8QG型微机监控保护装置，装置以16位单片机为核心，工业级外围芯片，精密小型互感器，小型专用继电器，以及科学的算法，保护可靠灵敏，测量精度高。

标准化、模块化硬件设计，科学的软件编程，高精度的A/D转换，多种抗干扰措施，使装置具备高性能，高抗干扰能力。

4．组合开关采用TPC105-TD33H嵌入式一体化工控机、SCS-601串口转换设备接口、组合开关综合控制装置WZBQC-8TG-M12、组合开关控制单元WZBQ-8QG，实现集中控制与通信管理。

工控机显示全中文多媒体界面，菜单式操作。

重要操作设有授权密码，既方便了用户操作，又有效防止误操作的发生。

在用户界面上，具备在线查询，修改，事件记录，自检等功能。

5．组合开关具备就地按键设定、远程网络设定功能，组合开关具备标准的RS-485/ 232通讯接口，国际标准的Modbus通讯协议，开关具备远程遥信、遥测、遥控、遥调等功能，可直接构成井下KJ-254矿用电力监控系统的一部份。

6. 组合开关数据处理采用光纤传输，极大地提高了安全可靠性。

解决了传统现场、兑现等方式所不能克服的电磁干扰问题。

二、工作条件a. 海拔不超过2000m，周围环境压力为80kPa∽106kPa；b. 运行环境温度一般为-5～+40℃；c. 周围空气相对湿度不大于95%（+25℃）；d. 在有沼气爆炸性混合物的矿井中；e. 与水平面的安装倾斜度不超过15°；f. 在无显著摇动和冲击振动的地方；g. 在无明显破坏绝缘的气体或蒸气的环境中；h．能防止滴水的地方；i. 污染等级：3级；j. 安装类别：Ⅲ类。

1140环氧聚酯无溶剂树脂使用说明书（通用）【组成】耐热不饱和聚酯树脂、环氧树脂、固化剂、活性稀释剂等。

【特点及用途】F 级绝缘材料。

该产品具有优越的电气性能、防湿热性能和机械性能。

适用于F 级电机、电气、发电机组、变压器绕组的快干浸渍绝缘处理。

在使用过程中本产品具有粘度低、渗透性强、固化速度快等特点。

【使用方法】一、普通沉浸参考工艺1、准备工作：取适量该产品倒入漆缸搅匀就可使用。

2、预烘：将工件预烘（120℃烘1小时），然后将工件温度降到35℃左右后再浸入漆缸，漆液需没过工件200mm 以上。

3、浸漆：工件沉浸时间一般为3～10分钟（视工件大小而定），至无气泡溢出为止。

4、滴漆：将工件吊出滴漆，滴干时间不少于30分钟。

5、固化条件：烘箱温度140℃，烘焙时间2～5小时。

6、工艺稳定性：定期补充新配树脂，使用效果更好。

春、秋、冬季停车50天以内，夏天停车30天以内，仍能正常使用。

7、在生产过程中必须严格控制漆的粘度，当树脂粘度增高时，必须使用本厂提供的1140－X 专用稀释剂调整粘度。

二、连续沉浸自动流水线参考工艺1、常见工艺流程：2、调配树脂：将1140树脂按工艺要求倒入漆槽，调整好粘度后，即可使用。

3、工艺参考：3.1节拍时间：3～6分钟，常用5分钟。

3.2预热温度：120～130℃。

因国内现有连续沉浸设备，一般预热段与最后固化段都在同一箱体内，因此预热温度不宜过低。

3.3固化温度：视工件大小，120～140℃。

4、工艺质量控制及管理：4.1 1140树脂的使用粘度一般控制在15±0.5秒/23℃，粘度过高时只能用1140－X 专用稀释剂稀释。

4.2每天树脂的消耗量应不少于漆槽中树脂贮量的5％。

在连续停车不用时，应定期检查漆的粘度及贮存状态，如有异常应及时清理，清洗漆槽和管路。

4.3漆槽宜配冷却装置，设备运行时浸渍树脂温度不高于45℃，停车时不高于25℃。

4.4若连续停车超过7天，则停车前应尽量减少漆槽内树脂的贮量，必要时可加入适量的1140－X 稀释剂。

MECHATRONIC DRIVE WITH STEPPER MOTORTRINAMIC Motion Control GmbH & Co. KGHamburg, GermanyHardware Version V1.2HARDWARE MANUAL+ +PD-1140+ +U NIQUE F EATURES :Table of Contents2Features (3)3Order Codes (5)4Mechanical and Electrical Interfacing (6)4.1Dimensions (6)4.2Stepper Motor Specifications (7)4.3Connectors of PD-1140 (8)4.3.1Power and Communication Connector (9)4.3.1.1Power Supply (9)4.3.1.2RS485 (10)4.3.1.3CAN (11)4.3.2Multipurpose I/O Connector (12)4.3.2.1Digital Inputs IN_1, IN_2, IN_3 (13)4.3.2.2Analog Input IN_0 (14)4.3.2.3Outputs OUT_0, OUT_1 (14)4.3.3Motor Connector (15)4.3.4Mini-USB Connector (16)5Reset to Factory Defaults (17)6On-Board LEDs (18)7Operational Ratings (19)8Torque Curves (20)8.1.1PD42-1-1140 Torque Curve (20)8.1.2PD42-2-1140 Torque Curve (20)8.1.3PD42-3-1140 Torque Curve (21)8.1.4PD42-4-1140 Torque Curve (21)9Functional Description (22)10PD-1140 Operational Description (23)10.1Calculation: Velocity and Acceleration vs. Microstep and Fullstep Frequency (23)11Life Support Policy (25)12Revision History (26)12.1Document Revision (26)12.2Hardware Revision (26)13References (26)2FeaturesThe PANdrive™PD-1140 is a full mechatronic solution with state of the art feature set. It is highly integrated and offers a convenient handling. The PD-1140 includes a stepper motor, controller/driver electronics, and TRINAMICs sensOstep™ encoder. It can be used in many decentralized applications and has been designed for 0.20… 0.70Nm max. holding torque and 24V DC nominal supply voltage. With its high energy efficiency from TRINAMICs coolStep technology cost for power consumption is kept down. The TMCL™ firmware allows for standalone operation and direct mode.M AIN C HARACTERISTICSMotion controller-Motion profile calculation in real-time-On the fly alteration of motor parameters (e.g. position, velocity, acceleration)-High performance microcontroller for overall system control and serial communication protocol handlingBipolar stepper motor driver-Up to 256 microsteps per full step-High-efficient operation, low power dissipation-Dynamic current control-Integrated protection-stallGuard2 feature for stall detection-coolStep feature for reduced power consumption and heat dissipationEncoder-sensOstep magnetic encoder (1024 increments per rotation) e.g. for step-loss detection under all operating conditions and positioning supervisionInterfaces-RS485 2-wire communication interface-CAN 2.0B communication interface-USB full speed (12Mbit/s) device interface- 4 multipurpose inputs:-3x general-purpose digital inputs(Alternate functions: STOP_L / STOP_R / HOME switch inputs or A/B/N encoder input) -1x dedicated analog input- 2 general purpose outputs-1x open-drain 1A max.-1x +5V supply output (can be switched on/off in software)Software-TMCL: standalone operation or remote controlled operation,program memory (non volatile) for up to 2048 TMCL commands, andPC-based application development software TMCL-IDE available for free.Electrical and mechanical data-Supply voltage: +24V DC nominal (9… 28V DC)-Motor current: up to 2A RMS / 2.8A peak (programmable)-0.22… 0.70Nm max. holding torque (depends on motor)Refer to separate TMCL Firmware Manual, too.TRINAMIC S U NIQUE F EATURES – E ASY TO U SE WITH TMCLstallGuard2™ stallGuard2 is a high-precision sensorless load measurement using the back EMF on thecoils. It can be used for stall detection as well as other uses at loads below those which stall the motor. The stallGuard2 measurement value changes linearly over a wide range of load, velocity, and current settings. At maximum motor load, the value goes to zero or near to zero. This is the most energy-efficient point of operation for the motor.Load [Nm]stallGuard2Initial stallGuard2 (SG) value: 100%Max. loadstallGuard2 (SG) value: 0Maximum load reached. Motor close to stall. Motor stallsFigure 2.1 stallGuard2 load measurement SG as a function of loadcoolStep ™coolStep is a load-adaptive automatic current scaling based on the load measurement via stallGuard2 adapting the required current to the load. Energy consumption can be reduced by as much as 75%. coolStep allows substantial energy savings, especially for motors which see varying loads or operate at a high duty cycle. Because a stepper motor application needs to work with a torque reserve of 30% to 50%, even a constant-load application allows significant energy savings because coolStep automatically enables torque reserve when required. Reducing power consumption keeps the system cooler, increases motor life, and allows reducing cost.00,10,20,30,40,50,60,70,80,9050100150200250300350EfficiencyVelocity [RPM]Efficiency with coolStepEfficiency with 50% torque reserveFigure 2.2 Energy efficiency example with coolStep3Order CodesThe PD-1140 is currently available with four NEMA 17 stepper motors.The length of the PANdrives is specified without the length of the axis. For the overall length of the product please add 24mm.Table 3.1 PD-1140 order codesThe following options are available:Table 3.2 PD-1140 firmware optionsA cable loom set is available for this module:Table 3.2 Cable loom order codes4Mechanical and Electrical Interfacing4.1DimensionsThe PD-1140 includes the TMCM-1140 stepper motor controller/driver module, the magnetic encoder based on sensOstep technology and a NEMA17 bipolar stepper motor. Currently, there is a choice between four NEMA 17/42mm bipolar stepper motors with different lengths and different holding torques.Figure 4.1 PD-1140 dimensions4.2Stepper Motor SpecificationsM AIN CHARACTERISTICS OF FOUR DIFFERENT MOTORS AVAILABLE AS PART OF THE PD-1140Table 4.1: NEMA 17 / 42mm stepper motor technical data4.3 Connectors of PD-1140The controller/driver board of the PD-1140 offers four connectors including the motor connector which is used for attaching the motor coils to the electronics. The power and communication connector is used for power supply, CAN interface, and RS485 interface. The 8pin multipurpose I/O connector offers four multipurpose inputs and two general purpose outputs. Further, there is a connector for the USB interface.USBMotor14Multi-purposeI/O18Power and Communication16Figure 4.2 Overview connectorsFigure 4.3 Connectors and mating connectors, contacts and applicable wire4.3.1 Power and Communication ConnectorA 6pin JST PH-series 2mm pitch single row connector is used for power supply, RS485 and CAN serial communication. Please note the additional power supply information in chapter 4.3.1.1.61Table 4.1 Connector for power supply and interfaces4.3.1.1 Power SupplyFor proper operation care has to be taken with regard to power supply concept and design. Due to space restrictions the TMCM-1140 includes about 40µF/35V of supply filter capacitors. These are ceramic capacitors which have been selected for high reliability and long life time. The module includes a 28V suppressor diode for over-voltage protection. There is no reverse polarity protection. The module will short any reversed supply voltage due to the suppressor diode (uni-directional version) and the internal diodes of the driver transistors.It is important that the power supply voltage is kept below the upper limit of 28V (please see also chapter 6, operating values). Otherwise the driver electronics might be seriously damaged! Especially, when the selected operating voltage is near the upper limit a regulated power supply is highly recommended. In addition to power stabilization (buffer) and filtering this added capacitor will also reduce any voltage spikes which might otherwise occur from a combination of high inductance power supply wires and the ceramic capacitors. In addition it will limit slew-rate of power supply voltage at the module. The low ESR of ceramic-only filter capacitors may cause stability problems with some switching power supplies.4.3.1.2RS485For remote control and communication with a host system the TMCM-1140 provides a two wire RS485 bus interface. For proper operation the following items should be taken into account when setting up an RS485 network:1.BUS STRUCTURE:The network topology should follow a bus structure as closely as possible. That is, the connection between each node and the bus itself should be as short as possible. Basically, it should be short compared to the length of the bus.termination resistor (120 Ohm)termination resistor (120 Ohm)Figure 4.4 Bus structure2.BUS TERMINATION:Especially for longer busses and/or multiple nodes connected to the bus and/or high communication speeds, the bus should be properly terminated at both ends. The TMCM-1140 does not integrate any termination resistor. Therefore, 120 Ohm termination resistors at both ends of the bus have to be added externally.3.NUMBER OF NODES:The RS485 electrical interface standard (EIA-485) allows up to 32 nodes to be connected to a single bus. The bus transceiver used on the PD-1140 units (SN65HVD3082ED) has just 1/8th of the standard bus load and allows a maximum of 256 units to be connected to a single RS485 bus. 4.NO FLOATING BUS LINES:Avoid floating bus lines while neither the host/master nor one of the slaves along the bus line is transmitting data (all bus nodes switched to receive mode). Floating bus lines may lead to communication errors. In order to ensure valid signals on the bus it is recommended to use a resistor network connecting both bus lines to well defined logic levels. In contrast to the termination resistors this network is normally required just once per bus. Certain RS485 interface converters available for PCs already include these additional resistors (e.g. USB-2-485).terminationresistor(120 Ohm)RS485- / RS485BRS485+ / RS485AFigure 4.5 Bus lines with resistor network4.3.1.3CANFor remote control and communication with a host system the TMCM-1140 provides a CAN bus interface. Please note that the CAN interface is not available in case USB is connected. For proper operation the following items should be taken into account when setting up a CAN network:1.BUS STRUCTURE:The network topology should follow a bus structure as closely as possible. That is, the connection between each node and the bus itself should be as short as possible. Basically, it should be short compared to the length of the bus.termination resistor (120 Ohm)terminationresistor(120 Ohm) Figure 4.6: CAN bus structure2.BUS TERMINATION:Especially for longer busses and/or multiple nodes connected to the bus and/or high communication speeds, the bus should be properly terminated at both ends. The TMCM-1140 does not integrate any termination resistor. Therefore, 120 Ohm termination resistors at both ends of the bus have to be added externally.3.NUMBER OF NODES:The bus transceiver used on the TMCM-1140 units (TJA1050T) supports at least 110 nodes under optimum conditions. Practically achievable number of nodes per CAN bus highly depends on bus length (longer bus -> less nodes) and communication speed (higher speed -> less nodes).4.3.2Multipurpose I/O ConnectorAn 8pin JST PH-series 2mm pitch single row connector is available for all multipurpose inputs and outputs.18Table 4.4 Multipurpose I/O connector4.3.2.1 Digital Inputs IN_1, IN_2, IN_3The eight pin connector of the TMCM-1140 provides three multipurpose digital inputs IN_1, IN_2 and IN_3.All three inputs accept up-to +24V input signals. They are protected against these higher voltages using voltage resistor dividers together with limiting diodes against voltages below 0V (GND) and above +3.3V DC (see figure below).IN_1IN_2IN_3microcontroller (all)and TMC429 (IN_0, IN_1)common switch for allFigure 4.7 General purpose inputs (simplified input circuit)The three digital inputs have alternate functionality depending on configuration in software. The following functions are available:Table 4.7 Multipurpose inputs / alternate functions4.3.2.2 Analog Input IN_0The eight pin connector of the TMCM-1140 provides one dedicated analog input IN_0.This dedicated analog input offers a full scale input range of 0… +10 V with a resolution of the internal analog-to-digital converter of the microcontroller of 12bit (0… 4095).The input is protected against higher voltages up-to +24 V using voltage resistor dividers together with limiting diodes against voltages below 0 V (GND) and above +3.3 V DC (see figure below).IN_0ADC input (microcontroller)Figure 4.8 General purpose inputs (simplified input circuit)4.3.2.3 Outputs OUT_0, OUT_1The eight pin connector of the TMCM-1140 offers two general purpose outputs OUT_0 and OUT_1. OUT_0 is an open-drain output capable of switching up to 1A. The output of the N-channel MOSFET transistors is connected to a freewheeling diode for protection against voltage spikes especially from inductive loads (relais etc.) above supply voltage (see figure below).microcontrollerFigure 4.9 General purpose output OUT_0In contrast OUT_1 is able to supply +5V (100mA max.) to an external load. An integrated P-channel MOSFET allows to switch on / off this +5V supply in software (see figure below). This output might be used in order to supply +5V to an external encoder circuit.microcontrollerOUT_0Figure 4.10 General purpose output OUT_14.3.3Motor ConnectorAs motor connector a 4pin JST PH-series 2mm pitch single row connector is available. The motor connector is used for connecting the four motor wires of the two motor coils of the bipolar stepper motor to the electronics.41Table 4.5 Motor connector4.3.4 Mini-USB ConnectorA 5pin mini-USB connector is available on-board for serial communication (as alternative to the CAN and RS485 interface). This module supports USB 2.0 Full-Speed (12Mbit/s) connections.15Table 4.6 Connector for USBFor remote control and communication with a host system the TMCM-1140 provides a USB 2.0 full-speed(12Mbit/s) interface (mini-USB connector). As soon as a USB-Host is connected the module will accept commands via USB.USB B US P OWERED O PERATION M ODEThe TMCM-1140 supports both, USB self powered operation (when an external power is supplied via the power supply connector) and USB bus powered operation, (no external power supply via power supply connector).On-board digital core logic will be powered via USB in case no other supply is connected (USB bus powered operation). The digital core logic comprehends the microcontroller itself and also the EEPROM. The USB bus powered operation mode has been implemented to enable configuration, parameter settings, read-outs, firmware updates, etc. by just connecting an USB cable between module and host PC. No additional cabling or external devices (e.g. power supply) are required.Please note that the module might draw current from the USB +5V bus supply even in USB self powered operation depending on the voltage level of this supply.5Reset to Factory DefaultsIt is possible to reset the PD-1140 to factory default settings without establishing a communication link. This might be helpful in case communication parameters of the preferred interface have been set to unknown values or got accidentally lost.For this procedure two pads on the bottom side of the board have to be shortened.Please perform the following steps:1.Power supply off and USB cable disconnected2.Short two pads as marked in Figure 5.13.Power up board (power via USB is sufficient for this purpose)4.Wait until the on-board red and green LEDs start flashing fast (this might take a while)5.Power-off board (disconnect USB cable)6.Remove short between pads7.After switching on power-supply / connecting USB cable all permanent settings have beenrestored to factory defaultsShort these two padsFigure 5.1 Reset to factory default settings6On-Board LEDsThe board offers two LEDs in order to indicate board status. The function of both LEDs is dependent on the firmware version. With standard TMCL firmware the green LED should be flashing slowly during operation and the red LED should be off.When there is no valid firmware programmed into the board or during firmware update the red and green LEDs are permanently on.B EHAVIOR OF LED S WITH S TANDARD TMCL F IRMWARERed LEDGreen LEDFigure 6.1 On-board LEDs7Operational RatingsThe operational ratings show the intended or the characteristic ranges and should be used as design values.In no case shall the maximum values be exceeded!Table 7.1 General operational ratings of moduleO PERATIONAL RATINGS OF MULTIPURPOSE I/O STable 7.2 Operational ratings of multipurpose I/Os8Torque Curves8.1.1PD42-1-1140 Torque CurveFigure 8.1 PD42-1-1140 torque vs. velocity 24V / 2A, 256µsteps 8.1.2PD42-2-1140 Torque CurveFigure 8.2 PD42-2-1140 torque vs. velocity 24V / 2A, 256µsteps8.1.3PD42-3-1140 Torque CurveFigure 8.3 PD42-3-1140 torque vs. velocity 24V / 2A, 256µsteps 8.1.4PD42-4-1140 Torque CurveFigure 8.4 PD42-4-1140 torque vs. velocity 24V / 2A, 256µsteps9Functional DescriptionThe PD-1140 is a highly integrated mechatronic device which can be controlled via several serial interfaces. Communication traffic is kept low since all time critical operations, e.g. ramp calculations are performed on board. Nominal supply voltage of the unit is 24V DC. The PANdrive is designed for both: direct mode and standalone operation. Full remote control of device with feedback is possible. The firmware of the module can be updated via any of the serial interfaces.In Figure 9.1 the main parts of the PD-1140 are shown:-the microprocessor, which runs the TMCL operating system (connected to TMCL memory),-the motion controller, which calculates ramps and speed profiles internally by hardware,-the power driver with stallGuard2 and its energy efficient coolStep feature,-the MOSFET driver stage,-the QSH stepper motor, and-the sensOstep encoder with resolutions of 10bit (1024 steps) per revolution.9…Figure 9.1 Main parts of the PD-114010 PD-1140 Operational Description10.1 C alculation: Velocity and Acceleration vs. Microstep andFullstep FrequencyThe values of the parameters sent to the TMC429 do not have typical motor values like rotations per second as velocity. But these values can be calculated from the TMC429 parameters as shown in this section.Table 10.1 TMC429 velocity parametersM ICROSTEP F REQUENCYThe microstep frequency of the stepper motor is calculated with3220482][][_⋅⋅⋅=divpulse CLK velocityHz f Hz usf with usf: microstep-frequencyF ULLSTEP F REQUENCYTo calculate the fullstep frequency from the microstep frequency, the microstep frequency must be divided by the number of microsteps per fullstep.usrsHz usf Hz fsf 2][][=with fsf: fullstep-frequencyThe change in the pulse rate per time unit (pulse frequency change per second – the acceleration a ) is given by 29__max 22++⋅=div ramp div pulse CLK a f aThis results in acceleration in fullsteps of:usrs aaf 2=with af: acceleration in fullstepsE XAMPLE :Hz MHz msf 31.12207032204821000161=⋅⋅⋅=Hz Hz fsf 34.1907231.122070][6==sMHzMhz a 21.11921000)16(29112=⋅=++s MHzs MHzaf 863.1221.1196==C ALCULATION OF THE NUMBER OF ROTATIONSA stepper motor has e.g. 72 fullsteps per rotation.49.267234.1907===rotation per fullsteps fsf RPS46.1589726034.190760=⋅=⋅=rotation per fullsteps fsf RPM11Life Support PolicyTRINAMIC Motion Control GmbH & Co. KG does not authorize or warrant any of its products for use in life support systems, without the specific written consent of TRINAMIC Motion Control GmbH & Co. KG.Life support systems are equipment intended to support or sustain life, and whose failure to perform, when properly used in accordance with instructions provided, can be reasonably expected to result in personal injury or death.© TRINAMIC Motion Control GmbH & Co. KG 2013Information given in this data sheet is believed to be accurate and reliable. However neither responsibility is assumed for the consequences of its use nor for any infringement of patents or other rights of third parties, which may result from its use.Specifications are subject to change without notice.All trademarks used are property of their respective owners.12Revision History12.1Document RevisionTable 12.1 Document revision12.2H ardware RevisionTable 12.2 Hardware revision13References[PD-1140 TMCL] PD-1140 TMCL Firmware Manual [TMC262] TMC262 Datasheet[TMC429] TMC429 Datasheet[TMCL-IDE] TMCL-IDE User ManualPlease refer to .。

USER MANUALSALES OFFICE (301) 975-1000TECHNICAL SUPPORT (301) 975-1007Part #07M1140RC Doc #018031U,Rev. DRevised 1/22/08An ISO-9001Certified Company1.0 WARRANTY INFORMATIONPatton Electronics warrants all Model 1140RC components to be free from defects, and will—at our option—repair or replace the product should it fail within one year from the first date of shipment.This warranty is limited to defects in workmanship or materials, and does not cover customer damage, abuse or unauthorized modification. If this product fails or does not perform as warranted, your sole recourse shall be repair or replacement as described above. Under no condition shall Patton Electronics be liable for any damages incurred by the use of this product. These damages include, but are not limited to, the following: lost profits, lost savings and incidental or consequential damages arising from the use of or inability to use this product. Patton Electronics specifically disclaims all other warranties, expressed or implied, and the installation or use of this product shall be deemed an acceptance of these terms by the user.1.1 RADIO AND TV INTERFERENCEThe Model 1140RC generates and uses radio frequency energy, and if not installed and used properly—that is, in strict accordance with the manufacturer's instructions—may cause interference to radio and television reception. The Model 1140RC has been tested and found to comply with the limits for a Class A computing device in accordance with the specifications in Subpart J of Part 15 of FCC rules, which are designed to provide reasonable protection from such interference in a commercial installation. However, there is no guarantee that interference will not occur in a particular installation. If the Model1140RC does cause interference to radio or television reception, which can be determined by turning the power off or removing the card, the user is encouraged to try to correct the interference by one or more of the following measures: moving the computing equipment away from the receiver, re-orienting the receiving antenna and/or plugging the receiving equipment into a different AC outlet (such that the computing equipment and receiver are on different branches). In the event the user detects intermittent or continuous product malfunction due to nearby high power transmitting radio frequency equipment, the user is strongly advised to take the following steps: use only data cables with an external outer shield bonded to a metal or metalized connector; and, configure the rear card as shown in section 3.2 of this manual.1.2CE NOTICEThe CE symbol on your Patton Electronics equipment indicates that it is in compliance with the Electromagnetic Compatibility (EMC) directive and the Low Voltage Directive (LVD) of the Union European (EU). A Certificate of Compliance is available by contacting Technical Support.1All warranty and nonwarranty repairs must be returned freight prepaid and insured to Patton Electronics. All returns must have a Return Materials Authorization number on the outside of the shipping container. This number may be obtained from Patton Electronics Technical Support: (301) 975-1007; ; or,******************.NOTE: Packages received without an RMA number will not be accepted.Patton Electronics' technical staff is also available to answer any questions that might arise concerning the installation or use of your Model 1140RC. Technical Service hours: 8AM to 5PM EST, Monday through Friday.22.0 GENERAL INFORMATIONThank you for your purchase of this Patton Electronics product. This product has been thoroughly inspected and tested and is warranted for One Year parts and labor. If any questions or problems arise during installation or use of this product, please do not hesitate to contact Patton Electronics Technical Support at(301) 975-1007,***********************.2.1 FEATURES• Supports async or sync communication over dual optical fibers • RS-232 Data rates to 57.6 Kbps• Distances to 2 miles•V.54 and V.52 Diagnostics• Mounts in Patton’s 16-Card Rack Chassis• Compatible with the Patton Model 1140 self-powered modem• Immune to RFI/EMI noise, ground loops and transient surges• Easily accessible configuration jumpers & switches• Bi-level LED status indicators• Works with switchable 120V or 240V rack mount power supply • SMA or ST connectors available (HD-26 female RS-232 port) on rear Interface card2.2 DESCRIPTIONThe Patton Model 1140RC fiber optic rack card modem is the rack mountable counterpart to Patton’s Model 1140 self-powered, fiber optic modem. Communicating full or half duplex over dual optical fibers, the Model 1140RC supports data rates to 57.6 Kbps and distances to 2 miles. Both V.54 and V.52 diagnostics are built into the unit. Like all fiber optic modems, the Model 1140RC is inherently immune to RFI/EMI noise, ground loops and transient surges. The carrier may be switch selected as either “Continuously On” or “Controlled by RTS”. Five pairs of bi-level LED indicators monitor TD, RD, RTS, CD, test and error. A single LED monitors power.The Model 1140RC is designed to mount in Patton’s 2U high 19”rack chassis. This 16-card chassis has a switchable 120/240 volt power supply and mounts cards in a mid-plane architecture: The front “brains” half-card can be plugged into different rear “interface” cards. The Model 1140RC is available with a choice of two interface cards: one with SMA connectors, and one with ST connectors. Both cards are equipped with an HD-26 female connector for the RS-232 interface.3The power supply on/off switch is located on the front panel. When plugged in and switched on, a red front panel LED will glow. Since the Model 1000R16 is a “hot swappable” rack, it is not necessary for any cards to be installed before switching on the power supply. The power supply may be switched off at any time without harming the installed cards.NOTE: Please refer to the Model 1000RP Series User Manual AC and DC Rack Mount Power Supplie s for fuse and power cardreplacement information.4.2 INSTALLING THE MODEL 1140RC INTO THE CHASSISThe Model 1140RC is comprised of a front card and a rear card. The two cards meet inside the rack chassis and plug into each other via mating 50 pin card edge connectors. Use the following steps as a guideline for installing each Model 1140RC into the Model 1000R16 rack chassis:1.Slide the rear card into the back of the chassis along the metalrails.2.Secure the rear card using the metal screws provided.3.Slide the front card into the front of the chassis. It should meet therear card when it’s almost all the way into the chassis.4.Push the front card gently into the card-edge receptacle of the rearcard. It should “click” into place.5.Secure the front card using the thumb screws.NOTE:Since the Model 1000R16 chassis allows “hot swapping”of cards, it is not necessary to power down the rack when youinstall or remove a Model 1140RC.5.0 OPERATIONOnce you have configured each Model 1140RC and connected the cables, you are ready to operate the units. This section describes the LED status monitors and power-up procedure.5.1 LED STATUS MONITORSThe Model 1140RC features ten front panel status LEDs that indicate the condition of the modem and communication link:•The green “PWR” LED glows when power is applied to the modem card through its mid-plane chassis connection.•The green “TD” and “RD” indicators blink to show positive state data activity. The Red “TD” and “RD” indicators blink to shownegative state data activity. Solid red indicates an idle state.•The green “RTS” and “CD” indicators glow solid to show the control signal is on. The red “RTS” and “CD” indicators glow solid to show the control signal is off. When the 1140RC is connected to a DTE, RTS will glow green for an incoming signal on RS-232 pin 4. CD will glow green for an incoming signal from the line, and anoutgoing signal on RS-232 pin 8.•The “Test” LED glows when either the Local Analog Loopback (LAL) or Remote Digital Loopback (RDL) V.54 test mode isinitiated. The “Error” LED blinks when an error is detected by the V.52 diagnostics.5.2 POWER-UPThere is no power switch on the Model 1140RC: Power is automatically applied to the 1140RC when its card-edge connector makes contact with the chassis’ mid-plane socket, or when the chassis’power supply is turned on. Note: The 1140RC is a “hot swappable”card—it will not be damaged by plugging it in or removing it while the rack is powered up.When the local and remote units are both powered up, and are passing data normally, the following LED conditions will exist:• PWR = green• TD & RD = flashing red and green• RTS & CD = green• Test = off• Error = offThe Model 1140RC offers two V.54 test modes and two V.52 test modes to evaluate the condition of the modems and the communication link. Both sets of tests can be activated physically from the front panel. The V.54 test can also be activated from the RS-232 interface. Note: V.54 and V.52 test modes on the Model 1140RC are available for point-to-point applications only.5.3.1 LOCAL ANALOG LOOPBACK (LAL)The Local Analog Loopback (LAL) test checks the operation of the local Model 1140RC, and is performed separately on each unit.Any data sent to the local Model 1140RC in this test mode will be echoed (returned) back to the user device. For example, characters typed on the keyboard of a terminal will appear on the terminal screen. To perform a LAL test, follow these steps:1.Activate LAL. This may be done in one of two ways: First, bymoving the upper front panel toggle switch RIGHT to “Analog”.Second, by raising pin 18 on the RS-232 interface (note: besure DIP switch S2-8 is off). Once LAL is activated, the Model1140RC transmit output is connected to its own receiver. The“Test” LED should be lit.2.Verify that the data terminal equipment is operating properlyand can be used for a test.3.Locate the lower of the two toggle switches on the front panelof the Model 1140RC and move it to the right. This willactivate the V.52 BER test mode and inject a “511” test patterninto the local loop. If any errors are present in the loop, thered “Error” LED will blink sporadically.4.If the BER test indicates no errors are present, move the V.52toggle switch to the left, thus activating the “511/E” test withperiodic errors. If the test is working properly, the red “Error”LED will light. A successful “511/E” test will confirm that theloop is in place, and that the Model 1140RC’s built-in “511”generator and detector are working properly.5.If the BER test indicates that errors are present, check to seethat the RS-232 cable connecting the DTE to the Model1140RC is wired straight through, and is plugged in properly.Also, ensure that the Model 1140RC is configured properly.Then re-check your DTE equipment. If you still have errors,call Patton Technical Support at (301) 975-1007.The Remote Digital Loopback (RDL) test checks the performance of both the local and remote Model 1140RCs, and the communication link between them. Any characters sent to the remote 1140RC in this test mode will be returned back to the originating device. For example, characters typed on the keyboard of the local terminal will appear on the local terminal screen after having been passed to the remote Model 1140RC and looped back. To perform an RDL test, follow these steps:1.Activate RDL. This may be done in two ways: First, bymoving the upper front panel toggle switch LEFT to “Remote”.Second, by raising pin 21 on the RS-232 interface. (Note: besure DIP switch S2-8 is off).2.Verify that the DTE equipment on the local end is operatingproperly and can be used for a test.3. Locate the lower of the two toggle switches on the front panelof the 1140RC and move it to the right. This will activate theV.52 BER test mode and inject a “511” test pattern into theremote loop. If any errors are present in the loop, the red“Error” LED will blink sporadically.4.If the BER test indicates no errors are present, move the V.52toggle switch to the left, thus activating the “511/E” test withperiodic errors. If the test is working properly, the red “Error”LED will light. A successful “511/E” test will confirm that theloop is in place, and that the Model 1140RC’s built-in “511”generator and detector are working properly.5.If the remote BER test indicates that errors are present, andthe local analog loopback/BER tests showed that both Model1140RCs were functioning properly, this suggests a problemwith the twisted pair communication line connecting the twomodems. A common problem is improper crossing of thepairs. Also, verify that the modular connections are pinnedproperly, and the twisted pair line has continuity. If you stillhave errors, call Technical Support at (301) 975-1007.5.3.3 USING THE V.52 BER TEST INDEPENDENTLYThe Model 1140RC's V.52 BER test can be used independent of the V.54 loopback tests. This requires two operators: one to initiate and monitor the test at both the local and the remote Model 1140RC. To use the V.52 BER test by itself, both operators should simultaneouslyfollow these steps:of the Model 1140RC and move it to the right. This willactivate the V.52 BER test mode and transmit a “511” testpattern to the other unit. If any errors are present, thereceiving modem’s red “Error” LED will blink sporadically.Note: For this independent test to function, the “511” switch on both Model 1140RCs must be turned on.2.If the test indicates no errors are present, move the V.52toggle switch to the left, thus activating the “511/E” test withperiodic errors present. If the test is working properly, thereceiving modem’s red “Error” LED will blink regularly. Asuccessful “511/E” test will confirm that the link is in place, and that the Model 1140RC’s built-in “511” generator and detectorare working properly.APPENDIX ASPECIFICATIONSTransmission Line: Dual optical cableTransmission Mode: Asynchronous, half or full duplex, point-to-point Interfaces:EIA RS-232, CCITT V.24Data Rates: 0 - 57.6 KbpsDistance: 2 miles over continuous fiberRTS/CTS Delay: Switch-selectable: No delay, 7.0 mS, 53 mS Receiver Sensitivity: -45 dBmCoupled Power Output: -30 to -36 dBmOptic Wavelength: 850 nmLED Indicators: Power, TD, RD, RTS, CD, Test Mode, Error Connectors: HD-26 female on RS-232 side; ST or SMA connectors on fiber sidePower Supply: 120/240V (switchable) on rack chassis Temperature Range: 0-60°C (32-140°F)Altitude: 0-15,000 feetHumidity: Up to 95% non-condensingWeight: 2 oz.Dimensions: 0.95”W x 3.1”H x 5.4”LAPPENDIX DBLOCK DIAGRAMCopyright ©Patton Electronics CompanyAll Rights ReservedMODEL1140RC BLOCKD IAGRAM21Dear Valued Customer,Thank you for purchasing Patton Electronics products! We do appreciate your business. I trust that you find this user manual helpful.We manufacture one of the widest selections of data communications products in the world including CSU/DSU's, network termination units, powered and self-powered short range modems, fiber optic modems, interface converters, baluns, electronic data switches, data-line surge protectors, multiplexers, transceivers, hubs, print servers and much more. We produce these products at our Gaithersburg, MD, USA, facility, and cancustom manufacture products for your unique needs.We would like to hear from you. Please contact us in any of the following ways to tell us how you like this product and how we can meet your product needs today and in the future.Web: Sales E-mail: ****************Support E-mail: ******************Phone - Sales (301) 975-1000Phone - Support (301) 975-1007Fax: (301) 869-9293Mail: Patton Electronics Company7622 Rickenbacker DriveGaithersburg, MD 20879 USAWe are committed to a quality product at a quality price. Patton Electronics is ISO 9001 certified. We meet and exceed the highest standards in the industry (CE, UL, etc.).It is our business to serve you. If you are not satisfied with any aspect of this product or the service provided from Patton Electronics or its distributors, please let us know.Thank you.Burton A.PattonVice PresidentP.S. Please tell us where you purchased this product._________________________________________________________ __________________________________________________________________________________________________________________ _________________________________________________________ _________________________________________________________ _________________________________________________________ _________________________________________________________。

.Ordering GuideCisco Aironet 1140 Series Access PointThe Cisco® Aironet® 1140 Series Access Point is a business-ready, indoor access point designed for simple deployment and energy efficiency. The 1140 Series is a dual-band, 802.11n access point with integrated antennas. It can be ordered in a controller-based* (lightweight) or Standalone (autonomous) version. It may also be ordered with a single-band 802.11g/n (2.4-GHz) radio for use in regulatory domains that do not allow 802.11a (5-GHz) operation.*The Cisco Unified Wireless Network supports two architectural options - standalone and controller-based. The standalone solution does not require controllers and is ideal for small scale or distributed deployments. The controller-based option is recommended for businesses of any size and deployment topology. It is the most scalable solution and delivers the greatest flexibility and feature velocity for distributed or centralized deployments.The Cisco Aironet 1140 Series ships with the following:●Access point●Software: Cisco Lightweight Access Point Protocol (LWAPP)1 software with the Controller-based version orCisco IOS Software with the Standalone version●Mounting plate, security hasp, pair of ceiling-tile clips, and hardware accessory package●Documentation CDThe Cisco Aironet 1140 Series is available in several stock keeping units (SKUs), each of which identifies a particular regulatory domain (Tables 1 and 2). Each version provides a unique combination of channel and power settings that are compliant with local government regulations. To verify which version is operable in your country, visit /go/aironet/compliance.Table 1. Cisco Aironet 1140 Series Controller-based SKUs and Regulatory Domains (Dual-Band 802.11a/g/n)Part Number Description SMARTnet 8x5xNBDAIR-LAP1142N-A-K9 802.11a/g/n Controller-based AP; Int Ant; FCC Cfg CON-SNT-1142NAKAIR-LAP1142N-C-K9 802.11a/g/n Controller-based AP; Int Ant; China Cfg CON-SNT-L1142NCAIR-LAP1142N-E-K9 802.11a/g/n Controller-based AP; Int Ant; ETSI Cfg CON-SNT-LAP1142EAIR-LAP1142N-I-K9 802.11a/g/n Controller-based AP; Int Ant; Middle East Cfg CON-SNT-LAP1142IAIR-LAP1142N-K-K9 802.11a/g/n Controller-based AP; Int Ant; Korea Cfg CON-SNT-LAP1142KAIR-LAP1142N-N-K9 802.11a/g/n Controller-based AP; Int Ant; Non-FCC Cfg CON-SNT-L1142NNAIR-LAP1142N-P-K9 802.11a/g/n Controller-based AP; Int Ant; Japan Cnfg CON-SNT-LAP1142P1 When the Cisco Aironet 1140 Series operates as a lightweight access point, a Cisco Wireless LAN (WLAN) Controller is required.Part Number Description SMARTnet 8x5xNBDAIR-LAP1142N-S-K9 802.11a/g/n Controller-based AP; Int Ant; Singapore Cfg CON-SNT-LAP1142SAIR-LAP1142N-T-K9 802.11a/g/n Controller-based AP; Int Ant; Taiwan C CON-SNT-LAP1142TTable 2. Cisco Aironet 1140 Series Controller-based SKUs and Regulatory Domains (Single-Band 802.11g/n)Part Number Description SMARTnet 8x5xNBDAIR-LAP1141N-A-K9 802.11g/n Controller-based AP; Int Ant; FCC Cfg CON-SNT-LAP1141AAIR-LAP1141N-E-K9 802.11g/n Controller-based AP; Int Ant; ETSI Cfg CON-SNT-LAP1141EAIR-LAP1141N-P-K9 802.11g/n Controller-based AP; Int Ant; Japan Cfg CON-SNT-LAP1141PTable 3. Cisco Aironet 1140 Series Standalone SKUs and Regulatory Domains (Dual-Band 802.11a/g/n)Part Number Description SMARTnet 8x5xNBDAIR-AP1142N-A-K9 802.11a/g/n Standalone AP; Int Ant; FCC Cfg CON-SNT-1142NAKAIR-AP1142N-C-K9 802.11a/g/n Standalone AP; Int Ant; China Cfg CON-SNT-L1142NCAIR-AP1142N-E-K9 802.11a/g/n Standalone AP; Int Ant; ETSI Cfg CON-SNT-LAP1142EAIR-AP1142N-I-K9 802.11a/g/n Standalone AP; Int Ant; Middle East Cfg CON-SNT-LAP1142IAIR-AP1142N-K-K9 802.11a/g/n Standalone AP; Int Ant; Korea Cfg CON-SNT-LAP1142KAIR-AP1142N-N-K9 802.11a/g/n Standalone AP; Int Ant; Non-FCC Cfg CON-SNT-L1142NNAIR-AP1142N-P-K9 802.11a/g/n Standalone AP; Int Ant; Japan Cnfg CON-SNT-LAP1142PAIR-AP1142N-S-K9 802.11a/g/n Standalone AP; Int Ant; Singapore Cfg CON-SNT-LAP1142SAIR-AP1142N-T-K9 802.11a/g/n Standalone AP; Int Ant; Taiwan C CON-SNT-LAP1142TTable 4. Cisco Aironet 1140 Series Standalone SKUs and Regulatory Domains (Single-Band 802.11g/n)Part Number Description SMARTnet 8x5xNBDAIR-AP1141N-A-K9 802.11g/n Standalone AP; Int Ant; FCC Cfg CON-SNT-LAP1141AAIR-AP1141N-E-K9 802.11g/n Standalone AP; Int Ant; ETSI Cfg CON-SNT-LAP1141EAIR-AP1141N-P-K9 802.11g/n Standalone AP; Int Ant; Japan Cfg CON-SNT-LAP1141PPower OptionsThe Cisco Aironet 1140 Series can be powered with an 802.3af switch, a power supply, or power injector. No powering device is included with the access point. Customers who intend to power the access point from an inline power-capable switch do not require a power supply.Power InjectorA Cisco Aironet power injector is not included with the Cisco Aironet 1140 Series and may be purchased separately (Table 5).Table 5. Cisco Aironet 1140 Series Power Injector Product NumbersProduct Number Product DescriptionAIR-PWRINJ4= Cisco Aironet Power Injector for the 1140 Series (Spare)Power SupplyA Cisco Aironet power supply is not included with the Cisco Aironet 1140 Series and may be purchased separately (Table 6). The AIR-PWR-B is the recommended power supply for the 1140 Series. The AIR-PWR-SPLY1 may also be used to power the1140 Series.Table 6. Cisco Aironet 1140 Power Supply Product NumbersProduct Number Product DescriptionAIR-PWR-B= Power Supply for 1140 Series (Spare)Mounting BracketA mounting bracket is included with the Cisco Aironet 1140 Series. Additional brackets may be purchased separately (Table 7).Table 7. The Cisco Aironet 1140 Series Mounting Bracket Part NumberProduct Number Product DescriptionAIR-AP1140MNTGKIT=AP1140 Access Point Ceiling/Wall Mount Bracket Kit-spareCustomers who plan to replace 1130 Series access points with the 1140 Series can purchase a retrofit mounting kit separately (Table 8). Simply install the new retrofit kit on the back of the 1140 Series, remove the 1130 Series from the ceiling, and slide the 1140 Series with the retrofit mounting kit onto the existing ceiling bracket.Table 8. The Cisco Aironet 1140 Series Retrofit Mounting Kit Part NumberProduct Number Product DescriptionAIR-AP1140RETROMT=1140 Mounting kit: Fits AP to 1130 brackets- spareCisco Aironet 1140 Series Eco-PackCisco Aironet 1140 Series Eco-Packs ship with 10 controller-based (lightweight) access points or 5 standalone access points and are designed to reduce product packaging and preserve the environment (Table 9). Note that power supplies and power cords are not included with the eco-pack. For customers who require local power, power supplies and power cords need to be ordered as separate line items.Note: The single-band 802.11g/n Cisco Aironet 1140 Series (AIR-LAP1141N or AIR-AP1141N) is not available in an eco-pack.Table 9. Promotional Pricing SKUs and Regulatory Domains for the Cisco Aironet 1140 Series Controller-based Eco-PackPart Number Description SMARTnet 8x5xNBDAIR-LAP1142-AK9-PR 802.11a/g/n LWAPP AP Integrated Antennas FCC Cnfg, 10 APs Qty (10) CON-SNT-1142NAKAIR-LAP1142-CK9-PR 802.11a/g/n LWAPP AP Integrated Antennas China Cnfg, 10 APs Qty (10) CON-SNT-L1142NCAIR-LAP1142-EK9-PR 802.11a/g/n LWAPP AP Integrated Antennas ETSI Cnfg, 10 APs Qty (10) CON-SNT-LAP1142EAIR-LAP1142-IK9-PR 802.11a/g/n LWAPP AP Integrated Antennas EU2 Cnfg, 10 APs Qty (10) CON-SNT-LAP1142IAIR-LAP1142-KK9-PR 802.11a/g/n LWAPP AP Integrated Antennas Korea Cnfg, 10 APs Qty (10) CON-SNT-LAP1142KAIR-LAP1142-NK9-PR 802.11a/g/n LWAPP AP Integrated Antennas AU Cnfg, 10 APs Qty (10) CON-SNT-L1142NNAIR-LAP1142-PK9-PR 802.11a/g/n LWAPP AP Integrated Antennas JPN2 Cnfg, 10 APs Qty (10) CON-SNT-LAP1142PAIR-LAP1142-SK9-PR 802.11a/g/n LWAPP AP Integrated Antennas SG Cnfg, 10 APs Qty (10) CON-SNT-LAP1142SAIR-LAP1142-TK9-PR 802.11a/g/n LWAPP AP Integrated Antennas Taiwan Cnfg, 10 Aps Qty (10) CON-SNT-LAP1142TTable 10. Cisco Aironet 1140 Series Controller-based Eco-Pack SKUs and Regulatory Domains (Promotional Pricing Not Included)Part Number Description SMARTnet 8x5xNBDAIR-LAP1142-AK9-10 802.11a/g/n LWAPP AP Integrated Antennas FCC Cnfg, 10 APs Qty (10) CON-SNT-1142NAKAIR-LAP1142-CK9-10 802.11a/g/n LWAPP AP Integrated Antennas China Cnfg, 10 APs Qty (10) CON-SNT-L1142NCAIR-LAP1142-EK9-10 802.11a/g/n LWAPP AP Integrated Antennas ETSI Cnfg, 10 APs Qty (10) CON-SNT-LAP1142EAIR-LAP1142-IK9-10 802.11a/g/n LWAPP AP Integrated Antennas EU2 Cnfg, 10 APs Qty (10) CON-SNT-LAP1142IPart Number Description SMARTnet 8x5xNBDAIR-LAP1142-KK9-10 802.11a/g/n LWAPP AP Integrated Antennas Korea Cnfg, 10 APs Qty (10) CON-SNT-LAP1142KAIR-LAP1142-NK9-10 802.11a/g/n LWAPP AP Integrated Antennas AU Cnfg, 10 APs Qty (10) CON-SNT-L1142NNAIR-LAP1142-PK9-10 802.11a/g/n LWAPP AP Integrated Antennas JPN2 Cnfg, 10 APs Qty (10) CON-SNT-LAP1142PAIR-LAP1142-SK9-10 802.11a/g/n LWAPP AP Integrated Antennas SG Cnfg, 10 APs Qty (10) CON-SNT-LAP1142SAIR-LAP1142-TK9-10 802.11a/g/n LWAPP AP Integrated Antennas Taiwan Cnfg, 10 Aps Qty (10) CON-SNT-LAP1142TTable 11. Promotional Pricing SKUs and Regulatory Domains for the Cisco Aironet 1140 Series Standalone Eco-PackPart Number DescriptionAIR-AP1142-AK9-5PR 802.11a/g/n Standalone AP Integrated Antennas FCC Cnfg, 5 APsAIR-AP1142-CK9-5PR 802.11a/g/n Standalone AP Integrated Antennas China Cnfg, 5 APsAIR-AP1142-EK9-5PR 802.11a/g/n Standalone AP Integrated Antennas ETSI Cnfg, 5 APsAIR-AP1142-IK9-5PR 802.11a/g/n Standalone AP Integrated Antennas EU2 Cnfg, 5 APsAIR-AP1142-KK9-5PR 802.11a/g/n Standalone AP Integrated Antennas Korea Cnfg, 5 APsAIR-AP1142-NK9-5PR 802.11a/g/n Standalone AP Integrated Antennas AU Cnfg, 5 APsAIR-AP1142-PK9-5PR 802.11a/g/n Standalone AP Integrated Antennas JPN2 Cnfg, 5 APsAIR-AP1142-SK9-5PR 802.11a/g/n Standalone AP Integrated Antennas SG Cnfg, 5 APsAIR-AP1142-TK9-5PR 802.11a/g/n Standalone AP Integrated Antennas Taiwan Cnfg, 5 APsCisco Wireless LAN ServicesCisco and our specialized partners offer a broad portfolio of end-to-end services to help customers improve their organization’s productivity and collaboration by assisting with the readiness, deployment and optimization of your wireless network and mobility services. Our services help successfully deploy the Cisco Aironet 1140 Series and integrate mobility solutions effectively to lower the total cost of ownership and secure your wireless network. To learn more about Cisco Wireless LAN Service offers, please visit /go/wirelesslanservices.Cisco WLAN Advanced Services Consulting is available for the planning, deployment and optimization stages to help ensure the successful integration of the Cisco Aironet 1140 Series in your network (Table 12).Please, contact your Cisco Sales representative with the information required for a pricing quote:●Number of sites●Desired coverage area (square feet or square miles)●Estimated number of access points per site●Advanced Mobility Services and required applicationsTable 12. Cisco Aironet 1140 Series Planning and Deployment Consulting ServicesPart Number Service NameCON-AS-WLAN-PD Cisco Wireless LAN 802.11n Readiness Assessment ServiceCON-AS-WLAN-PD Cisco Wireless LAN 802.11n Migration ServiceCON-AS-WLAN Cisco Wireless LAN Optimization ServiceOrdering InformationTo place an order, visit the Cisco ordering website at /en/US/ordering/index.shtml.Printed in USA C78-502797-04 02/10。

ZBCF-90/210 （660V）（1140V）ZBCF-150/190-400 （660V）（1140V）矿用隔爆型复合式充电机使用说明书济南希格玛电力整流设备有限责任公司2009-10-20概述ZBCF-90/210、ZBCF-150/190-400矿用隔爆型复合式充电机是严格按照GB3836-2000国家标准及企业标准制造和检验的，工艺产品使用说明书是按GB9969.1-1998标准的程序编写及排序，产品型号符合MT/154.2标准要求。

1.1产品突出特点a、恒流恒压自动转换复合式充电。

b、自动识别相序。

不用倒相序，各种保护智能化。

c、移相控制数字化、集成化，免维护。

d、复合式充电一次充电程序使用三种性能不同的充电方式，利用微处理系统一体化自动完成充电全过程。

e、操作简单。

整机只使用一个控制旋钮来完成充电程序的启动。

调整电流，过电流复位，停机和程序自动关机，必要时紧急手动关机的功能。

f、本装置利用蓄电池放空后，可接收充电电流能力的特点，在有效时间内进行恒流充电，当恒流充电达到设定的电压值后进入脉冲去“极化”充电，消除因恒流充电出现的过电压现象，为自动转为恒压充电做时间上和技术上的准备。

这时微处理系统不间断的识别去“极化”电压转恒压的设定值，待确认后，自动转换到恒压充电。

充电电流随着电压恒定后，电流以逐渐递降方式充电，活化极板深层，从而保证蓄电池不会过充电，提高了蓄电池可持续放电的能力。

充电装置可在电网电压波动±5%的情况下正常工作，并能保证在20-100%额定输出电流下恒流运行，其恒流精度不低于±5%。

1.2 主要用途及适用范围ZBCF-90/210、ZBCF-150/190-400矿用隔爆型复合式充电机适用于煤矿井下高沼气的蓄电池机车进行常规充电及复合式充电设备，可以对如下型号的防爆蓄电池进行常规充电及复合式充电：(注：充电额定工作电流参照本说明书的第九项)A、D-300-KT防爆型蓄电池组，D-330-KT防爆型蓄电池组。

ZJT系列矿用隔爆兼本质安全型变频调速装置使用说明书山西华鑫电气有限公司1序言感谢您选用山西华鑫电气有限公司的ZJT系列矿用隔爆兼本质安全型变频调速装置。

本产品是山西华鑫电气有限公司自主开发、生产的可靠性高、性能优异的变频器，采用高品质的元器件、优质材料并结合高新数字集成控制技术制造而成。

本手册提供用户安装配线、参数设定、故障诊断和故障排除、日常维护相关事宜，为确保能正确操作此系列变频器，发挥其优越性能，请在装机之前，详细阅读本使用手册，将本手册交于该机器的使用者，并请妥善保存。

本公司对客户提供全方位的技术支持。

如对于本变频器的使用存在疑难或有特殊要求，请与就近的办事处、客户服务中心或者经销商联系，也可直接与公司本部联系，我们将竭诚为您服务。

本公司一直致力于产品的不断改进和完善，故本系列变频器的相应资料（操作手册、宣传资料等）如有变动，恕不另行通知。

开箱检查注意事项开箱时，请认真确认以下内容：1.产品是否有破损，零部件是否有损坏、脱落等现象，主体是否有碰伤现象；2.本机铭牌所标注的额定值是否与您的订货要求一致；3.本公司在产品的制造及包装出厂方面，已严格检验，但若发现有某种遗漏，请速与本公司或供应商联系，我们将在第一时间为您解决。

山西华鑫电气有限公司地址：山西省阳泉市李家庄华鑫工业园邮编：0450082 安全注意事项为了确保您的人身和设备安全，在使用本装置之前，请务必仔细阅读本章内容，并在以后的搬运、安装、运行、调试与检修过程中遵照执行。

1. 安全标识定义本符号提示如果不按要求操作，可能导致死亡、重伤或严重的财产损失。

本符号提示如果不按要求操作，可能使身体受伤或设备损坏。

本符号说明操作时需注意的事项。

本符号提示一些有用的信息。

2. 安装注意事项 危险！请将本装置安装在金属等不可燃物体上，以免火灾的发生。

请将易燃物远离本装置，否则有发生火灾的危险。

严禁私自拆装、改装本装置，否则后果自负。

必须由具有专业资格的技术人员进行配线作业，以免触电危险。

8SKC9215－3300、1140／660V（PLC）矿用隔爆型组合开关使用说明书山西长治贝克电气有限公司目录一、用途及概述 (1)二、使用条件 (1)三、主要技术参数和技术性能 (1)四、开关型号含义 (3)五、开关结构 (3)六、电气工作基本原理 (4)七、操作方法 (5)八、故障信息显示 (9)九、安装接线 (10)十、使用与维护 (11)十一、产品包装与保管 (12)十二、定货须知 (12)附录 (13)开关在使用前请认真阅读“使用说明书”一、用途及概述8SKC9215系列矿用隔爆型组合开关适用于含有爆炸性危险气体（甲烷）和煤尘的矿井中，在交流50HZ，电压1140（660V）、3300V线路中，对三相鼠笼式电动机或双绕组鼠笼式异步电动机的起动、停止进行控制和保护，并可在停止时方便地进行换向。

当设备出现过载，短路等故障时能自动切断电源并显示及记忆故障信号，开关还具有模拟漏电闭锁保护试验及短路保护试验功能，运行中能显示各支路状态参数。

本组合开关采用德国西门子公司S7-200可编程控制。

开关具有友好的人机界面，采用全中文液晶触摸屏显示及中文提示，更为直观，性能稳定，可靠性高，特别适合现场操作。

二、使用条件a、海拔不超过2000m；b、运行环境温度-25ºC－+40ºC;c、周围空气相对湿度不大于95％（+25ºC）;d、在有沼气爆炸性混合物矿井中；e、在无显著摇动和冲击的地方；f、与垂直在的安装倾斜度不超过15º;g、在无破坏绝缘的气体或蒸气的环境中；h、在无滴水的地方；I、污染等级：3级；J、安装类别：Ⅱ类（负载水平级）；三、主要技术参数和技术性能3.1 主要技术参数：3.1.1 额定电压：660V、1140V或3300V3.1.2 额定频率：50HZ3.1.3 额定工作电流：当电压为660V／1140V时：总电流450A～1800A;单台隔离开关450 A；单台接触器80～400 A;当电压为3300V时：总电流1600A；单台隔离开关800 A；单台接触器160A、400A、600 A;3.1.4 最大控制功率：在660 V，ηcosΦ=0.75时单回路为240KW在1140 V，ηcosΦ=0.75时单回路为500KW在3300 V，ηcosΦ=0.75时单回路为2000KW 3.1.5 8小时工作制；3.1.6 允许电压波动范围：75～110％；3.1.7 电流整定范围：0～400A；3.1.8 机械寿命：接触器大于150万次；隔离换向开关大于0.6万次；3.1.9 电寿命：大于6万次；3.1.10 引入电缆外径：进线3个可穿入不大于Φ70（Φ80）mm的橡套电缆；出线10个，可穿入不大于Φ70（Φ80）mm橡套电缆；控制线10个，可穿入不大于Φ23mm的橡套电缆；3.2 技术性能：本组合开关具有短路，过载、断相、漏电闭锁、过、欠压等各种保护。

QJZ9215－3300、1140／660V（PLC）矿用隔爆兼本质安全型组合开关使用说明书山西长治贝克电气有限公司目录一、用途及概述 (1)二、使用条件 (1)三、主要技术参数和技术性能 (2)四、开关型号含义 (3)五、开关结构 (4)六、电气工作基本原理 (5)七、操作方法 (6)八、故障信息显示 (11)九、安装接线 (12)十、使用与维护 (13)十一、产品包装与保管 (14)十二、定货须知 (15)附录 (16)开关在使用前请认真阅读“使用说明书”一、用途及概述QJZ9215系列矿用隔爆兼本质安全型组合开关适用于含有爆炸性危险气体（甲烷）和煤尘的矿井中，在交流50HZ，电压1140（660V）线路中，对三相鼠笼式电动机或双绕组鼠笼式异步电动机的起动、停止进行控制和保护，并可在停止时方便地进行换向。

当设备出现过载，短路等故障时能自动切断电源并显示及记忆故障信号，开关还具有模拟漏电闭锁保护试验及短路保护试验功能，运行中能显示各支路状态参数。

本组合开关采用德国西门子公司S7-200可编程控制。

开关具有友好的人机界面，采用全中文液晶触摸屏显示及中文提示，更为直观，性能稳定，可靠性高，特别适合现场操作。

二、使用条件a、海拔不超过2000m；b、运行环境温度-25ºC－+40ºC;c、周围空气相对湿度不大于95％（+25ºC）;d、在有沼气爆炸性混合物矿井中；e、在无显著摇动和冲击的地方；f、与垂直在的安装倾斜度不超过15º;g、在无破坏绝缘的气体或蒸气的环境中；h、在无滴水的地方；I、污染等级：3级；J、安装类别：Ⅱ类（负载水平级）；三、主要技术参数和技术性能3.1主要技术参数：3.1.1 额定电压：660V、1140V或3300V3.1.2 额定频率：50HZ3.1.3 额定工作电流：当电压为660V／1140V时：总电流450A～1800A;单台隔离开关450 A；单台接触器80～400 A;当电压为3300V时：总电流1600A；单台隔离开关800A；单台接触器160A、400A、600 A;3.1.4 最大控制功率：在660 V，ηcosΦ=0.75时单回路为240KW在1140 V，ηcosΦ=0.75时单回路为500KW在3300 V，ηcosΦ=0.75时单回路为2000KW3.1.5 8小时工作制；3.1.6 允许电压波动范围：85～110％；3.1.7 电流整定范围：0～400A；3.1.8 机械寿命：接触器大于150万次；隔离换向开关大于0.6万次；3.1.9 电寿命：大于6万次；3.1.10 引入电缆外径：进线3个可穿入不大于Φ70（Φ80）mm的橡套电缆；出线4～8个，可穿入不大于Φ70（Φ80）mm橡套电缆；控制线6～8个，可穿入不大于Φ23mm的橡套电缆；3.1.11 外型尺寸：长×宽×高＝2800（3250）×880×990（mm）3.2技术性能：本组合开关具有短路，过载、断相、漏电闭锁、过、欠压等各种保护。

QBZ——80/1140(660) 矿用隔爆型真空电磁起动器使用说明书浙江恒泰科技有限公司2005.12目录1、概述 (1)2、结构特征与工作原理 (1)3、技术参数 (2)4、外形尺寸及重量 (3)5、安装与调整 (3)6、故障分析与排除 (4)7、保养维护 (4)8、运输及贮存 (4)9、订货须知 (4)10、联系方法 (4)11、电气原理图 (5)1.概述1.1.适用范围：QBZ-80/1140(660)矿用隔爆型真空磁力起动器。

（以下简称起动器）适用于有爆炸性的危险气体和煤尘的矿井中，适用于交流50HZ，电压1140V﹑660V的电路中，直接或远距离起动，停止和正反转控制三相鼠笼型异步电动机，同时对电动机有关电路进行综合保护。

安装使用前，请详细阅读使用说明书。

1.2.使用条件：a).海拔高度不超过2000m。

b).周围环境温度不高于+40℃，不低于-5℃。

c).周围空气相对湿度不大于95%（+25℃）时。

d).有甲烷等爆炸性混合物矿井中。

e).与水平面的安装倾斜度不超过15°。

f).在无显著摇动和剧烈冲击振动的地方。

g).在无足以破坏电气绝缘的气体或蒸汽的环境中。

h).在有防止滴水的地方。

i).污染等级三级。

j).防护等级IP54。

k).安装类别Ⅲ类。

1.3 产品型号﹑名称﹑规格：1.3.1 产品型号：QBZ-80/1140（660）1.3.2 产品名称：矿用隔爆型真空电磁起动器1.3.3 型号含义1.4 防爆型式：矿用隔爆型1.5 防爆标志：ExdⅠ1.6 执行标准： MT111-1998。

2. 结构特征和工作原理2.1起动器外壳为园柱形，具有凸出的底和盖，壳身上部为接线箱，用以引进电源电缆到电动机，引用电缆用压紧螺母或压紧法盘使密封圈压紧螺母，以达到隔爆要求。

起动器外壳右边有手柄，用以分断和关合隔离开关或换向，手柄上部有起动和停止按钮，停止按钮与换向隔离开关手柄联锁，只有停止按钮按下后，换向隔离开关方可转动，外壳盖与换向隔离开关手柄联锁，当换向开关闭合时不可打开盖，只有当换向隔离开关手柄用特殊螺钉锁在分断位置时，才能打开外壳盖。

QJZ-□／1140（660）F系列煤矿风机用隔爆兼本质安全型真空电磁起动器使用说明书湘潭平安电气有限公司出版日期：二○一○年十月前言感谢使用QJZ-□/1140(660)F系列煤矿风机用隔爆兼本质安全型真空电磁起动器。

您在收到此设备后请仔细阅读本说明书。

本使用说明书介绍了QJZ-□/1140(660)F系列煤矿风机用隔爆兼本质安全型真空电磁起动器产品的用途、技术参数、适用范围、使用环境条件、结构简介、开箱检查、安装方法、注意事项、操作说明、常见故障的分析与处理、运行时的维护保养、电气原理图、包装运输及储存、订货须知等基本要求。

本使用说明书按GB9969.1-1998的要求编写。

安全注意事项安装、运行、维护或检查之前要认真阅读本说明书。

注意事项！用户在使用前请务必认真阅读本说明书，并在本机正常使用条件下使用，否则因此造成的设备损坏本公司不承担任何责任。

在使用前请注意开关最大控制功率和负载最大功率是否相符。

“严禁带电开盖”如需开门检修，则必须使隔离换相开关打到“停”位置，再松开门上的闭锁螺栓，旋动手柄即可开门。

本产品接线时，应由专业人员进行。

本产品与其它本质安全型设备配接时，必须通过关联检验合格后方可使用。

本产品在使用过程中不得改变本安参数。

本产品在使用和维护时不得改变本安电路。

目录一、概述 (3)二、产品型号的表示方法 (3)三、技术参数 (4)四、适用范围 (4)五、使用环境条件 (4)六、结构简介 (4)七、开箱检查 (6)八、安装方法 (6)九、注意事项 (8)十、操作说明 (8)十一、常见故障的分析与处理措施 (10)十二、运行时的维护、保养 (11)十三、电气原理图、PLC示意图、外部接线示意图 (11)十四、包装、运输及库存 (16)十五、订货须知 (16)十六、产品质量信息反馈单 (17)十七、系统连接图 (18)一、慨述本系列煤矿风机用隔爆兼本质安全型真空电磁起动器（以下简称起动器）主要适用于含有爆炸性气体（甲烷）和煤尘矿井的环境中使用，也可适用于非煤环境中。

爱玛电动车TDT1140一3z说明书
爱玛电动车说明书执行标准：GB17761-1999电动自行车使用说明书（能源介质：铅酸）尊敬的用户朋友，为了您和他人的安全，为确保电动自行车性能优良、稳定，请您在使用前详细阅读说明书后再使用本产品。

本手册中提供的有关日常形式和保养知识，可便于您更熟悉木车的操控，任何不当操作，都有可能损坏您的爱车。

由于产品在技术上不断改进更新，可能未现实物与说明书稍有不同的情况，请以实物为准。

本手册中标有号内容，请认真阅读和遵守。

本车依照国家电动自行车标准科学的极限速设计，额定车速(20km/h)，使骑乘者安心，家人更放心。

关于充电标准充电时间：按照专用配套充电器规定的时间进行充电。

环境温度25左右，铅酸电池为3-8小时。

夏季充电，铅酸电池充电时间应为3-8小时，如果电池温度超过40，暂停充电，待温度下降后，继续充电。

冬天充电，应在室内放置一小时以后进行充电，时间应为4-10小时。

本充电器具有过流保护装置，长时间充电一般不超过18小时将不会影响电池和充电器的寿命。

充电注意事项请勿使用其他品牌的充电器充电，其他类型的蓄电池也不宜使用本充电器。

使用和存放时应防止液体和金属屑粒渗入充电器内部，谨防跌落及撞击，以免造成损伤。

当您在充电过程中，闻到异味或温度过高时，请立即停止充电并送至经销处检修。

关于骑行前的检查为了确保您的行车安全。