2715-3-01-80-00-00-07-0中文资料

27.195MHz FSK Radio Data Receiver , R2705DescriptionThe R2705 is a radio data receiver to receive digital data. Baud rates of 300 to 2400 bps can be received (Can be used to 4800bps with reduced sensitivity). The low cost, small size, low current consumption makes it ideal for various applications.Technical DataSupply Voltage4.5 -5.5 VDC Absolute maximum6.5VDC. Current Consumption 3.5mAReceiver Type Dual Conversion SuperheterodyneReceiving Freq 27.195MHz (Other freq available on 27.045, 27.145, & 27.455MHz. The 27.455 freq is not available for Australia)Oscillation SystemVCO with 10ppm Crystal Controlled reference Oscillator Operating Temperature Range -5 to 50°CIF Freq10.7 MHz and 455KHzSelectivity -6dB at ±5kHz-20dB at ±6kHz SensitivityBetter than -107dBm or 1µV Type of Demodulation Frequency Shift Keying. (FSK) Occupied Band Width 25KHz at -20dB.Baud Rate 2400 bps with 50% duty cycle (Can be used to 4800bps with reduced sensitivity) Data Output Level 0-5VFrequency Response 150 to 2400 Hz with 50% duty cycle (Other duty cycles will degrade sensitivity)Dimension39 x 25 x 12mmWeight 13 grams Usable Transmitter FMT-2712 Data Transmitter Antenna50 ohms, 27MHz AntennaR270527.195MHz FSK Radio Data ReceiverFeatures• Receives digital data• Baud rates 300 - 2400bps• Low cost, small size, low current consumptionApplication • Telecommand Systems• Security Systems • Alarms • Radio Data Communications• Commercial / Industrial TelemetryConnectionR2705 Data FormatIt is important to input the correct data format otherwise the receiver will have a lower sensitivity which will result in a reduced transmission range.The R2705 receiver data slicer is set for 50/50-duty cycle, therefore the “data in” should have a 50/50-duty cycle. The 50/50-duty cycle data can be pulse-width modulated to transmit resets, 0's or 1's. See diagram below :A 50/50-duty cycle will have an average DC signal resulting in a constant reference for the data slicer. Users should use pulse-width modulation to transmit data with logic 1's or 0's.If a different duty cycle is used, for example 66/33 ( Manchester format) the data slicer in the receiver will try to adjust itself to the average DC signal. Since this average DC signal is changing with different data bits this will result in a constantly changing reference for the data slicer, resulting in lower sensitivity. See diagram below : If 66/33 format is to be used the R2705E module is recommended.*Only 50/50 duty cycle data is suitable for the R2705 receiver.Manufactured byElsema Pty Ltd3/10 Hume Rd, SmithfieldNSW 2164Ph: 02 9609 4668Fax: 02 9725 2663Website: 。

MODBUS 协议用户手册Ver: D2010-10-20目录1 数据传输模式 (4)2 寄存器和数据类型 (5)2.1COIL (5)2.2FLOAT (5)2.3INT (5)2.4LONG (5)3 数据帧格式定义 (6)3.1CMD=0X03(读1个或多个寄存器) (6)3.2CMD=0X05(写COIL变量) (7)3.3CMD=0X06(写单个寄存器) (8)3.3CMD=0X10(写多个寄存器) (9)3.4故障返回帧 (10)4 数据帧校验算法 (11)4.1LRC校验 (11)4.2CRC16校验 (12)5 仪表变量地址定义 (14)6 附录1：常数表：故障码 (17)7 附录2：常数表：流量单位 (18)8 附录3：报警定义 (23)1 数据传输模式MODBUS采用RTU和ASCII两种方式进行数据传输。

RTU模式下，采用8bit二进制字符，ASCII模式下采用7bit ASC字符。

将RTU模式下的一个字节的高4位和低4位分开，变成2个字节，这样就是ASCII模式下传输的字节。

比如RTU模式下的数据0x1A，那么ASCII模式下就是0x31 0x41两个字节，所以ASCII模式下的帧长度为RTU模式下的1倍。

RTU传输模式的数据帧采用CRC校验，ASCII模式采用LRC校验。

下表总结了两种传输模式的区别：2 寄存器和数据类型下表列举了几种寄存器和数据类型2.1 COIL布尔变量0xFF00 -> ON 0x0000 -> OFF2.2 FLOAT使用2个寄存器存储单精度IEEE754格式的浮点数。

每个浮点数包含4个字节，具体定义如下：SEEEEEEE EMMMMMMM MMMMMMMM MMMMMMMM S:符号位0->正1->负E:阶码M:尾数的小数部分例如：0xC1480000 = -12.52.3 INT使用1个寄存器存储无符号整型数。

例如：0x0025 = 37 0x1234 = 46602.4 LONG使用2个寄存器存储无符号长整型数。

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。

Engineered O-Rings Catalog ORD 5710 USASimple solutionsfor complex sealing problemsIn the O-Ring Division’s monitoring each step of the process Finite element analysisElement Analysistion process and ensures theselection of the right materialand geometry for a customer’sapplication. As an addedbenefit, FEAused to predict service life.a simple interfacespecific glands and seals. Itversions of these books, availableas ORD 5703 (US) and 5705(Europe), provide engineersfor static and dynamic seals,with world productionamounting tobillions per year.In 1937,Niels A. Christensen, aDanish emigrant to the USA,was awarded a patent for thisring with the perfectgeometricalshape.In 1949,Parker O-ring materialsled to the aeronautical specifica-tion MIL-P-5515 B and to the dimensionalstandards MS 29512 and 513, which werebased on Parker O-rings. Since then, theO-ring has become a vital sealingelement in all kinds of fluidpower equipment.advice from Parker sealing experts isnever far away.Parker O-Ring division’s manufacturing facilities span 4 continents and 9countries. Some of these The division’s North American headquarters, located in Lexington KY , isApplicationsTransportation•Brakes/ABS•Cooling/air conditioning •Fuel and diesel injection, spark plugs•Quick connects, couplings, gear units•Shock absorbers •Steering systems•Transmissions and radiator sealsAerospace•Aircraft engines, wheels and brakes•Control and actuation systems•Fuel systems•Space shuttle launch vehiclesMedical•Dyalizers•Syringes, infusions•USP Class VI and FDA “White Listed” formulations are availableSemiconductor Processing•For wet, dry and thermal processes•Parker UHP Processing:Parker uses totally enclosed and dedicated manufacturing areas for compounding,preparation, molding, cleaning and final packaging of o-rings in critical compounds for semiconductor processing applicationsFluid Power•Accumulators •Cylinders, valves •Filters •Fittings •Pumps•Rotary actuatorsConsumer Products•Appliances•Compounds meeting the requirements/recommen-dations: FDA, NSF, WRC,DVGW, BGA, KTW •Heating/plumbing •Sanitary equipmentChemical Processing Industry (CPI)•Equipment and components requiring extremely high chemical inertness attemperatures up to +320°CEnergy/Oil Field•Drilling•Exploration •Production •TransportationParker O-rings are used in many applications and industries, including:1-800-C-Parker Parker O-Ring Division Worldwide LocationsNorth AmericaUSAParker Hannifin CorporationO-Ring Division2360 Palumbo Drive Lexington, KY 40509 Phone: (859) 269-2351Fax: (859) 335-5128 Parker Hannifin CorporationO-Ring Division104 Hartmann Drive Lebanon, TN 37087Phone: (615) 444-0191Fax: (615) 449-7312 Parker Hannifin CorporationO-Ring Division109 Industrial Park Drive Livingston, TN 38570 CanadaParker Hannifin CorporationO-Ring Division255 Hughes RoadOrillia, Ontario L3V 2M3 Phone: (705) 325-2391Fax: (705) 325-5721 MexicoParker Hannifin CorporationO-Ring DivisionPSDM Business Unit Diagonal Lorenzo de la Garza #13 Ciudad IndustrialH. Matamoros, Tam. 87490 Parker Hannifin CorporationO-Ring DivisionBRCO Business UnitCalle Sexta Y Vizcaya #95 Col. EuzkadiH. Matamoros, Tam. 87370 EuropeAustriaSee GermanyBelgiumParker Hannifin SA NVParc Industriel Sud, Zone II 15, Rue du Bosquet1400 NivellesPhone:+(32) 67-28 09 00 Fax:+(32) 67-28 09 99 Czech RepublicParker Hannifin s.r.o. Podebradská 100528912 SadskáPhone: +(420) 325-55 5111 Fax: +(420) 325-55 5112 DenmarkPolar Seals A/S Bjergvangen 23060 EspergærdePhone: +(45) 49 12 17 00 Fax: +(45) 49 12 17 01FinlandParker Hannifin OyYlastontie 16FIN-01510 VantaaPhone: +(358) 9-47 67 31Fax: +(358) 9-47 67 32 00FranceParker Hannifin RakZ.l. du Mont-BlancB.P. 482, Ville-la-Grand74108 Annemasse-CédexPhone: +(33) 4-50 87 80 80Fax: +(33) 4-50 87 80 76GermanyParker Hannifin GmbHO-Ring DivisionStuifenstr. 55D-74385 PleidelsheimPhone:+(49) 71 44-206-0Fax: +(49) 71 44-2 37 49HungaryParker Hannifin CorporationBudapest Representation OfficeVezer u. 156-1581148 BudapestPhone: +(36) 1-2 52 81 37Fax: +(36) 1-2 52 81 29IrelandSee United KingdomItalyParker Seals S.p.A.Via Marzaghette 2I-25030, Adro (BS)Phone: +(39) 030 754 811Fax: +(39) 030 745 8210Parker Hannifin S.p.A.Via Priv. Archimede, 120094 Corsico (Mi)Phone: +(39) 02-4 51 92-1Fax: +(39) 02-4 47 93 40NetherlandsParker Hannifin B.V.Edisonstraat 1P.O. Box 3407570 AH OldenzaalPhone: +(31) 541-58 50 00Fax: +(31) 541-58 54 59NorwayParker Hannifin A/SBerghagenP.O. Box 3008N-1402 SkiPhone: +(47) 64 91 10 00Fax: +(47) 64 91 10 90PolandParker Hannifin Sp. z.o.o.ul. Parowcowa 8B02-445 WarsawPhone: +(48) 22-8 63 49 42/43Fax: +(48) 22-8 63 49 44RussiaParker Hannifin CorporationKomsomolsky Prospect 42Office 407119827 GSP Moscow G-48Phone: +(7) 095-234 0054Fax: +(7) 095-242 0907Slovakiasee Czech RepublicSwedenParker Hannifin Sweden ABBox 831416308 SpangaPhone: +(46) 8-7 60 29 60Fax: +(46) 8-7 61 81 70SwitzerlandSee GermanySpainParker Hannifin Espana S.A.Paseo Cordellas, 5708290 Cerdanyola-del-Valles(Barcelona)Phone: +(34) 93-6 91 50 62Fax: +(34) 93-6 91 46 19United KingdomParker Hannifin plcSeal GroupParkway, Globe ParkMarlow, Bucks SL7 1YBPhone: +(44) 16 28-40 40 88Fax: +(44) 16 28-40 40 89Asia PacificAustraliaParker Hannifin Australia Pty. Ltd.9 Carrington Road2154 (NSW) Castle HillPhone: +(61) 2-96 34 77 77Fax: +(61) 2-98 42 51 11ChinaParker HannifinFluid Power Systems(Shanghai) Co., Ltd.280 Yun Qiao RoadJian Qiao Export Processing ZoneShanghai 201206Phone: +(86) 21-5031 2525Fax: +(86) 21-5834 3714Parker Asun Sealing CompanyNo. 26 Tian Bao RoadTian Bao Industrial ZoneDong Guan CityGuang Dong, P.R.O.C.Hong KongParker Hannifin Hong Kong Ltd.8/F Kin Yip Plaza9 Cheung Y ee StreetCheung Sha Wan, KowloonPhone: +(852) 24 28 80 08Fax: +(852) 24 80 42 56JapanParker Hannifin Japan Ltd.Osaka Sales OfficeNo. 2 Tani Bldg.1-4-25, Nishi-Miyahara,Yodogawa-KuPhone: +(81) 6-48 07-32 88Fax: +(81) 6-48 07-32 99KoreaParker Hannifin Korea Ltd.902 Dae Heung Bldg.648-23 Yeaksam-dongKangnam-Ku, Seoul 135-080Phone: +(82) 2-5 61 04 14Fax: +(82) 2-5 56 81 87SingaporeParker Hannifin Singapore Pte., Ltd.No. 11 Fourth Chin Bee RoadJurong Town 61 9702Phone: +(65) 261 5233Fax: +(65) 265 5125TaiwanParker Hannifin Taiwan, Ltd.8F-1, No 102 Sung Lung RoadTaipeiPhone: +(886) 2 8787 3780Fax: +(886) 2 8787 3782AfricaParker Hannifin Africa Pty. Ltd.Parker Place10 Berne AvenueAeroportKempton Park, South AfricaPhone: +(27) 11-3 92 72 80Fax: +(27) 11-3 92 72 13Latin AmericaArgentinaParker Hannifin Argentina SAICStephenson 27111667 Tortuguitas - Malvinas Arg.Buenos AiresPhone: +(54) 1-1 47 52-41 29Fax: +(54) 1-1 47 52-37 04BrazilParker Hannifin do BrasilIndustria e Comercia Ltda.Via Anhanguera, Km 25,305275 Sao Paulo / SPPhone: +(55) 11-39 17-10 99Fax: +(55) 11-39 17-08 17Continental HeadquartersManufacturing plants1/2-2.5M-CE。

Solid State Broadband High Power Amplifier2500 – 6000 MHz / 100 WattsThe BBM5K8CKT (SKU 1191) is a 2500 to 6000 MHz amplifier which is guaranteed to deliver 100W minimum output power and related RF performance under all specified temperature and environmental conditions. Typical power output is 125W and other typical performance parameters are also listed as a guide for consideration, but not guaranteed. This amplifier is suitable for broadband mobile jamming and band specific high power linear applications in the S and C frequency bands. This compact module utilizes the latest high power RF GaN transistors and also features built in control and monitoring, with protection functions to ensure high availability.▪ Solid-state Class AB linear design ▪ Instantaneous ultra broadband▪ Suitable for CW, AM, and FM (Consult factory for other modulation types) ▪ Small and lightweight▪ 50 ohm input/output impedance ▪ High reliability and ruggedness▪ Built-in control, monitoring and protection circuits ▪ RS485 serial interface for monitoring and control******************************DC , Over Temperature and Environmental Conditions, as specified. Min Typ Max Operating frequency BW MHz 2500 6000 Peak output power P SAT W CW input signal 100 125Gain, small signal G SS dB Measured with VNA in swept frequency mode at -20dBmCW. Input power calibrated / measured at the amplifier input port. Variable attenuator set to nominal attenuation.55 6065 Gain flatness small signal ΔG SS dB Test conditions the same as G SS ±5 Gain adjustment range G ADJ dB Test conditions the same as G SS 15 Gain adjustment step size G STEP dB Test conditions the same as G SS 0.5 Maximum input powerwithout damageP IN, Max dBm CW input signal for unlimited duration.20 Input return loss IRL dB Measured with VNA in swept frequency mode at -20dBm and 0dBm CW. Input power calibrated / measured at theamplifier input port. Variable attenuator set to nominal attenuation.-10 Noise figure NF dB Variable attenuator set to nominal attenuation.20 2nd harmonics 2nddBc Variable attenuator set to nominal attenuation. CW signal source at an output power of 100W.-10 3rd harmonics 3rddBc Variable attenuator set to nominal attenuation. CW signal source at an output power of 100W.-20Spurious Spur dBc Variable attenuator set to nominal attenuation. CW signal source of 0dBm at the input to the amplifier. Input power is calibrated / measured at the amplifier input port.Spurious defined as any non-harmonic amplifier output.Spurious measured in a 1kHz resolution bandwidth,10kHz video bandwidth. Specifications apply at offsets of greater than or equal to +/- 10kHz from the RF carrier. Maximum measurement frequency is 6.5GHz.-60Operating voltage V DC V Note: Output power capabilities and gain will vary withvoltage.26 2832 Current consumption I DC A Variable attenuator set to nominal attenuation.Measurement at an output power of 100W with a CW source.22Stock No. 1191D.S. Rev. 1.32 / 12-18-201319812500 – 6000 MHz / 100 WattsPA enable / Disable time T ON/OFF uSec Variable attenuator set to nominal attenuation.Measurement with 0dBm CW signal presented to theinput of the amplifier. Rise and fall times of amplifieroutput envelope recorded. Rise and fall times at 10% /90% of the output power in linear scale. PA Enable /Disable signal set to 10kHz repetition rate and 50% dutycycle.1PA PROTECTION / RUGGEDNESSThe PA includes protection circuits for:•Over temperature•Over voltage•Reverse polarity•Over currentIn addition to protection circuits, the PA will withstand full reflection at the RF output port at any angle for up to 1 minute at P3dB. ENVIRONMENTAL SPECIFICATIONSOperating Case Temperature T C-40 +85 °C Storage Temperature T STG-40 +85 °C Relative Humidity (non-condensing) RH 95 % Altitude (MIL-STD-810F Method 500.4) ALT 30,000 Feet Vibration/ShockMIL-STD-810F Method 514.5/516.5 – Proc 1VI/SH AirborneMECHANICAL SPECIFICATIONSDimensions 8.0 x 6.5 x 1.0 Inch Max Weight 3.5 lb. MaxRF ConnectorsInput: Type-SMA, Female Output: Type-TNC, FemaleDC Interface Connector Hybrid – D-Sub 17-Pin, Male (17W2) Cooling External Heatsink Required (not supplied)2500 – 6000 MHz / 100 Watts DC INTERFACE CONNECTORA1 GND Ground ReturnA2 VDD Supply Voltage: +26.0 – 32.0V DC, 28.0V DC Nominal1 RS485 (-) Serial Communication Bus2 Temperature Reporting Analog Output Voltage @ 10 mV/°C with a 500 mV offset (i.e. 0.75V = 25°C)3 Address 1 Hardware Address 14 Address 3 Hardware Address 35 Attenuator Setting Voltage input in the range of 0.5 – 3.0V DC, 0.5V DC corresponds with minimum attenuation, 3.0V DC is maximum attenuation. Leave pin open or grounded to utilize RS-485 interface. (See RS-485 details below)6 PA Enable 0/3.3V logic levels:Power Amplifier disable is a TTL Logic Low (0V).(Internally Pulled-High 3.3V)Leave pin open or pulled high to utilize RS-485 interface.(See RS-485 details below)7 Alarm Amplifier Alarm indicator: Normally TTL LowA logic High indicates a fault condition, 0/3.3V Logic Levels8 RS485 (+) Serial Communication Bus9 Current Reporting Analog output voltage range of 1V/10 A (i.e. 1.5V = 15A)10 Address 0 Hardware Address 0 – Least significant bit11 Address 2 Hardware Address 212 Address 4 Hardware Address 4 – Most significant bit13 Not Used No Connection14 Not Used No Connection15 Reset Hardware resetLogic 0 to reset PA and clear latched faultsPh. 1 (310) 412-8100 Fax. 1 (310) 412-9232 Stock No. 1191D.S. Rev. 1.32 / 12-18-20132500 – 6000 MHz / 100 WattsRS-485 User InterfaceThe following settings are used for serial communications:• Baud rate: 115,200 • Start bits: 1 • Data bits: 8 • Stop bits: 1 • Parity: None• Handshake: NoneFrame and Message StructuresFrame structureThe serial link will be asynchronous, and follows a typical RS485 frame structure. The frame structure is defined in the figure below.Each frame is 10 bits in length and will begin with a start bit, followed by 8 data bits and finally a single stop bit.Message structureFigure 1: Serial interface frame structureFigure 2: Serial interface message structure316 W. Florence Ave. Inglewood, CA 90301 Ph. 1 (310) 412-8100 Fax. 1 (310) 412-9232Stock No. 1191D.S. Rev. 1.32 / 12-18-20132500 – 6000 MHz / 100 Watts Master AddressA7 A6 A5 A4 A3 A2 A1 A0X X X X X X X XMaster Address is not evaluatedSlave AddressA7 A6 A5 A4 A3 A2 A1 A00 0 0 16 8 4 2 132 Slave addresses are possible (If no address lines are strapped on hardware, unit defaults to address 0)LenLen contains the number of bytes that follow, from Status to Checksum.StatusMaster should load this with zero.Slave will echo back status of the command after it is evaluated.Possible Slave responses:Value Description0x00h Message received and decoded successfully0x13h Checksum error0x2Bh Command not availableThere are 7 supported RS-485 commands, detailed below.2500 – 6000 MHz / 100 WattsNullThe null command responds with message status. It is used for a basic test of the communications link.Command frame value (hex) 0x00Length frame value (hex) 0x03Command data noneSlave response Echo with status setExample:[8/30 17:58:15.3]SEND: 00 00 03 00 00 03 ......[8/30 17:58:15.4]RECV: 00 00 03 00 00 03 .......Soft resetPerforms a restart of the system.Command frame value (hex) 0x04Length frame value (hex) 0x03Command data NoneSlave response Echo with status setExample:[8/30 18:09:39.0]SEND: 00 00 03 00 04 07 ......[8/30 18:09:39.1]RECV: 00 00 03 00 00 03 .......Set power up conditionSets the state of the amplifier bias on application of DC or reset.Command frame value (hex) 0x05Length frame value (hex) 0x03Command data 2 bytes:0x0001 sets power up condition to biasenabled.0x0000 sets power up condition to biasdisabled.Slave response Echo with status set2500 – 6000 MHz / 100 Watts Example:[8/30 18:13:08.5]SEND: 00 00 05 00 05 00 01 01 ........[8/30 18:13:12.3]RECV: 00 00 03 00 05 06 .......DisableDisables amplifier bias.Command frame value (hex) 0x06Length frame value (hex) 0x03Command data NoneSlave response Echo with status setExample:[8/30 18:14:36.7]SEND: 00 00 03 00 06 05 ......[8/30 18:14:36.8]RECV: 00 00 03 00 06 05 .......EnableEnables amplifier bias.Command frame value (hex) 0x07Length frame value (hex) 0x03Command data NoneSlave response Echo with status setExample:[8/30 18:15:35.4]SEND: 00 00 03 00 07 04 ......[8/30 18:15:35.5]RECV: 00 00 03 00 07 04 .......Set input attenuationSets the attenuation level.Notes:•The RS-485 attenuation value overrides voltage control on pin 5.•The value of the attenuation can only be increased from the factory value.•The gain of the amplifier is also a function of temperature compensation.•Variations in gain versus temperature are expected, independent of the user attenuation setting.2500 – 6000 MHz / 100 Watts Command frame value (hex) 0x11Length frame value (hex) 0x05Command data 2 bytes. The first byte is 0 and the secondbyte is the mixed number attenuationvalue.D7 D6 D5 D4 D3 D2 D1 D00 0 16 8 4 2 1 . 1/2Examples:30dB is 0x00 0x3C8.5dB is 0x00 0x11Slave response Echo with status setExample for setting 8.5dB user attenuation:[9/4 15:45:49.9]SEND: 00 00 05 00 11 08 05 19 ........[9/4 15:45:49.9]RECV: 00 00 03 00 11 12 .......Get statusReturns current status of amplifierCommand frame value (hex) 0x02Length frame value (hex) 0x03Command data NoneSlave response Input Current (2 bytes)Input Voltage (2 bytes)Temperature (2 bytes)Attenuator Setting (2 bytes)Alarm Register (2 bytes)Example:[8/30 17:59:39.5]SEND: 00 00 03 00 02 01 ......[8/30 17:59:39.5]RECV: 00 00 0D 00 02 00 0A 0A ........0008: C4 00 19 00 11 00 00 C3 ...2500 – 6000 MHz / 100 WattsALARM REGISTER15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0Temperature Alarm > 85 C Current Alarm > 25 A Voltage Alarm > 34 V Sequencer AlarmLatched Alarm Current > 29 A Latched Alarm Voltage or Temperature >36 V and/or>90 C00Notes on Alarms• Any alarm condition will pull the Alarm line high (Pin 7)• For Latched Current Alarm, the input power is attenuated by approximately 15 dB. • For Latched Voltage or Temperature, the unit will disable.• A Software or Hardware reset is required to clear Latched Alarm.Voltage 16 bit signed, 1/100th of a Volt +327.67 / -327.66 V Current16 bit unsigned in 1/100th of an Amp0 ~ 65535 in hundredths of an AmpTemperature 16 bit signed inwhole degrees+32767 / -32766 degrees CentigradeStock No. 1191D.S. Rev. 1.32 / 12-18-2013。

Your success is our futureSulzer Textil P7300hp Projectile Weaving Machine –Top performance and versatility in fabric production22000-02022002-01462000-0138The P7300hp high-performance projectile weaving machine: increase your competitive advantageWith the Sulzer TextilP7300hp you can fulfil your customers’ varyingrequirements precisely and individually. The mature projectile weft insertion technology is suitable for any weft material: spun yarns made of natural and manmade fibres, filaments,The P7300hp is a high-performance, all-purpose projectile weaving machine. Compared to the proven P7300, its performance is up to twenty per cent higher. Optimized motion sequences and direct projectile acceleration with thrust shoe result in a maximum weft insertion rate of 1570 m/min.or tapes. Whether weaving them to simple standard fabrics, fashion materials or wide, heavy technical textiles, the P7300hp is in its element.For decades, projectile weav-ing machines have been used to produce countless technical textiles, from the finest filter fabrics to densely woven and tear-resistant special fabrics for balloons and even ultra-heavycoating fabrics – all in out-standing quality.Denim fabrics are produced worldwide and withgreat success on projectile weaving machines. In the production of fabrics from polypropylene tapes, for Big Bags,geotextiles or agrotextiles,the projectile weaving machine excels withunparalleled economy andquality.32001-00809094-0161Cost-efficient and geared to your needsThe perfect interaction of a technologically mature design and cutting-edge computer technology puts the P7300hp in a class of its own. Its versatility and fast adaptability make it your company’s new success factor.Curtains and drapes inlarge widths can be woven best and most easily on the P7300hp .You can only gain from the multi-facetted benefits of the P7300hp :•lowest specific power consumption of all weaving systems•tucked selvedges withoutcostly raw material wastage•quick warp and style changing •low spare parts consumption and low-maintenance operation•super-easy operation combined with high reliability•oil bath-immersed,practically maintenance-free sub-units.The P7300hp combines top productivity – thanks to quick style changing, easy programming and high speed – with outstanding reliability.On models with large working widths, its efficien-cy is further increased by its ability to weave several fabric runs of the same or different widths simultane-ously. As a result, the maxi-mum weft insertion rate is attained at low machine rpm. That reduces machine wear and building stresses,lowers space requirementsand helps save electricity.42004-00542002-00982004-0103Projectile weft insertion –reliable and controlledThe weft is guided in a controlled manner in every phase of weft insertion: from weft transfer to the projectile, through insertion into the shed, to beat-up.Worldwide, there are mil-lions of projectiles in operation 24 hours a day The projectiles grip reliably a wide variety of threads,tapes or monofilaments and insert them in the shed.Reflecting the varying requirements for different weft yarns, projectile grip-pers with various clamping forces and surface areas are available. One outstand-ing feature of projectile technology is that the weft is inserted without central transfer, i.e. withoutadditional acceleration and braking. With this unique insertion technology,the P7300hp inserts all weft yarns in a controlled manner and with lowyarn strain, thus helping to ensure maximum reliability in the production of quality fabrics.The picking lever with the thrust shoe for directacceleration plays a key role in achieving the high weft insertion rate.The electronic warp let-off control guarantees constant warp tension frombeginning to end of the warp.Optionally, the P7300hp projectile weaving machine can be equipped with a control system for two, four or six weft colours.Unique weaving widths up to 540 cmThe P7300hp is available in nine working widths, from 190 cm to 540 cm. It is the only weaving machine for which 540 cm is a standard width. This has crucial advantages in the produc-tion of technical textiles.For instance, it enables agro- and geotextiles to be produced in large widths so that fewer seams are required.Minimizing yarn wastage –every selvedge the way you need itIn both single- and multi-panel weaving, everyselvedge can be tucked by standard or intermediate tucking units. The width of the tucked selvedges can be set from 18 to 25 mm and even to 35 mm. Accurate weft length measurement ensures that there is no yarn wastage. Instead of tucking units, the P7300hp can be equipped with devices for producing leno or melted selvedges. In the case of leno selvedges the Selvedge Saver eliminates auxiliary selvedges, thus economizing warp and weft yarn – a saving thattranslates into hard cash.52001-00572004-0072No compromises on fabric qualityIn developing the P7300hp , top fabric quality was our paramount goal. We achieved it with a new shed geometry.Premium fabrics,flawless qualityThe interplay of shed for-mation and warp and weft run is crucial for a flawless appearance of the cloth. In the P7300hp this principle has beenconsistently applied. By entering just a few data at the terminal, the cloth take-up, shed levelling and warp let-off are optimally coordinated. In this waysensor systems. A variety of back rest roller and cloth take-up systems are avail-able to suit the density and type of the fabric being woven. The weft density is adjustable in steps of 0.1pick per cm.No limits to fabric patterning A tappet motion with up to 14 heald shafts or an elec-tronically controlled dobby for a maximum of 18 heald shafts can be fitted for shed formation.In combination with the colour selector, which can handle up to 6 weft colours,there are practically no re-strictions on the designer's imagination.Perfect control of warptension is achieved with the new force sensors on the fabric support, where fabric quality is decided. Thisconfiguration is suitable for both warp tensioner and whip roller systems.A cloth take-up with a take-up and press roller isstandard equipment on the P7300hp . The floating take-up roller (photo) ensures reliable take-up even of heavy fabrics.starting marks are reliably and effectively avoided,even with delicate fabrics.Warp let-off and clothtakeup are electronicallycontrolled. With wideweaving machines or when using two half warp beamsthe machine is equippedwith two warp let-offdevices. The warp tensionof each warp let-off iscontrolled by separate624-6Projectile technology for top resultsGeared to the future, with mature mechanical systems and the latest computer technology, the P7300hp fulfils the requirements of today’s and tomorrow’s weaving rooms.The P7300hp helps ensure high productivity, user-friendly operation and high fabric quality. The machine’s modular design means that it can be adapted to meet future needs at any time. So even in the long term it remains a sound invest-ment.79099-0065The Sulzer Textil P7300hp produces fabrics in supreme quality, from all raw materials and for all applications.With a weft insertion rate of up to 1570 m/min it isoutstandingly cost-efficient.82004-00102001-00162001-00562003-0077The weaving machine for tomorrow’s needsThe versatility of the P7300hp is clear – in itsequipment and in the many optional extras available.With accessories tailored to the application it can be customized to meet your exact needs.With the P7300hp you are investing in a future-oriented, upgradeableweaving system. Thanks to its modular design, the machine can be adapted at low cost to meet new requirements. Thus it is a machine that can “grow”with your customers’ needs.Expanding the colourselector from two to four or even six weft colours is just as simple as switch-ing from tappet motion to dobby for shed formation.With the new machine-coupled pick findingfunction, operation of the weaving machine has been substantially improved.The P7300hp can be equip-ped with tappet motions for four to 14 heald shafts.The built-in levelling device facilitates operation.Whether equipped with a dobby for up to 18 shafts or a tappet motion for up to 14shafts, setting of the shed isquick and easy.92004-0080The P7300hp fulfils thehighest quality standards in the production of high-quality jacquard fabrics.Maintenance costs minimized –benefit maximizedIn servicing and mainte-nance, the P7300hp sets new standards. Substan-tially longer servicing and oil change intervals reflect the machine’s outstanding reliability and cost-efficiency. The reduced number of different lubri-cants saves costs through simplified logistics. All joints in the shaft drive have permanently lubri-cated ball bearings.The lifting levers are lubri-cated with grease. The new casing prevents accumu-lation of dust and is easy toLow-maintenance shaft drives with permanently lubricated ball bearingsbring an additional benefit –high flexibility for quick and easy style changes.clean. Practical mechanical and electronic safety com-ponents provide maximum protection for operatingpersonnel.1020040-07520040-07620040-0772004-0095-1Integration in networks to optimize the weaving processCorporate integration in local and global networks is also a major challenge in the textile industry.Sultex’s answer: state-of-the-art control systems architecture in its weaving machines.Reacting and supplying fast while maintaining high fabric quality are theessential preconditions for gaining advantages in the marketplace. In order to satisfy these demanding criteria the new projectile weaving machine has been equipped with a ground-breaking weaving machine control system.In the P7300hp , latest-generation microprocessors control, monitor and regu-late all major machine functions, thus ensuring consistently high quality in the weaving process.A touch-screen terminal is the clear, user-friendly man-machine interface.This user interface is based on Internet browsertechnology: the P7300hp thus anticipates the future of the textile industry.They include:•automatic adjustment of the weft detector•optimal adjustment of the projectile brake•semi-automatic warppull-through with synchronized drives•extended statistical functions •simple, accurate diagnoses•additional help functions.Besides machineparameters and pattern data which can be pro-grammed at the terminal or transferred viaproduction management systems and memory cards,statistical, help and diagnosis functions are available to simplify operation.Maximum user-friendliness and pioneering browser technology – twocharacteristic features of the terminal on the newprojectile weaving machine.Thanks to ergonomically arranged keys with clear,easy-to-understand symbols,operation of the P7300hpis simplicity itself.112004-0074-13World-class weaving machines –worldwide after sales service tailored to your needsProject consultingIf desired, our experts will draw up plans for optimal positioning of your weaving machines, and advise you on the modernization of an existing production facility or the planning of a new one.Production economics Our broad-basedknowledge of weaving processes is a safe founda-tion for investment and profitability analyses on any scale. The results are a dependable guide for rational investment decisions reflecting a genuine need.Weaving trialsOur Textile Centres inSwitzerland, Japan and the USA make the large body of weaving knowledge ob-tained from research,development and pro-cessing available to you.At Sultex, you can test any yarn on any machine you want. The results will guide you to the most suitable weaving system.Training Correct training is crucial for optimal utilization of our weaving systems. We train your operating personnel on the spot at your facility, in special courses at Sultex, or at one of the training centres we operate around the world.Besides the basic courses we offer, we can collaborate with you to develop training concepts to suit your organization or to meet other specific puter Based Training Sultex’s Computer Based Training is the key to independent, on-the-spot basic and further training.Based on the “learning on the job” principle, it teaches how to carry out settings,adjustments and checks, via clear, easy-to-understand videos, animations and illustrations.With regard to both content and method the course is professionally designed and makes learning a pleasure.AVANTI services / Textile Technical Consulting Increase the efficiency of your weaving mill and strengthen your position in the market. Sultex can assist you by running and maintaining your facility for you, partially or completely.Tailor-made options are available for the entire production process from warping to weaving, on request with guarantees according to your requirements.Our experts from Textile Technical Consulting can provide professional support in developing new fabrics and optimizing entire production processes.In this way you can achieve optimal fabric quality and ensure maximum cost-efficiency for your facility.Customer Support Services Supplying you quickly and reliably with spare parts,components andaccessories is one of the most important servicesoffered by Sultex. With “ELSPACEnet” (Electronic Spare Part Catalogue via Internet) and “EDOSnet”(Electronic Direct Ordering System via Internet), our spare parts logistics are continuously adapted to customers’ and market requirements, thus ensuring fast,comprehensive availability and supply.Upgrading Thanks to their modular design, our weavingmachines can be upgradedat any time to meet changing market require-ments. Our specialists will be glad to advise you.Based on close customer contacts, Sultex ensures that support for its partners and customers continues after they purchase their weaving machines. Sultex service is not limited to merely commissioning the machines. It also ensures that they remain fully functional and available throughout their service lives, to give the usercomplete satisfaction.Your success is our future24-19-2995-984PrintedinSwitzerlande/35.6.9BodSultex LimitedHead OfficeCH-8630 Ruti ZH, SwitzerlandPhone+41 (0)55 250 21 21Fax+41 (0)55 250 21 01******************Outstanding featuresof the Sulzer Textil P7300hp:•uncompromisingimplementation of customers’requirements•high flexibility for rapid responseto changing market trends•logical technological concept forexcellent fabric quality•designed for exceptionally cost-efficient production of a broad range of fabrics•low operating costs thanks to low service requirement.Specifications subject tochange without notice.。

辽宁省大连市2023-2024三下数学《除数是一位数的除法》部编版基础知识过关卷学校：_______ 班级：__________姓名：_______ 考号：__________（满分：100分时间：60分钟）总分栏题号一二三四五六七总分得分评卷人得分一、填一填。

（每空1分，共25分）1.在除法算式中，当□里最小填( )时，商是两位数。

2.一部动画片共198分钟，分5集播放，每集大约( )分钟。

3.□÷7＝10……□，余数最大是( )，这时被除数是( )。

4.在计算□53÷6时，如果商的最高位是十位，□里最大可以填( )。

7□2÷7，要使商的中间有0，□里最大可以填( )；要使计算结果没有余数，则□里只能填( )。

5.一个数除以7，商是24，余数最大，这个数是( )。

6.将一根68米长的绳子连续对折两次后，每小段长( )米。

7.“276÷6”的商是______位数；“640÷3”的商是______位数。

8.9.……左起第21个图形是( )，前50个图形中有( )个。

10.从324里面连续减3，减( )次才能得0。

11.122名同学乘船游玩，每条船准乘4人，至少需要________条船。

评卷人得分二、辨一辨。

（对的在括号中打“√”，错的打“×”）（每题1分，共5分）1.有87千克苹果，每5千克装一箱，至少需要18个箱子。

( )2.739÷6的商是122，余数是7。

( )3.因为24×5＋7＝127，所以127÷5＝24……7。

( )4.被除数的中间或末尾有0，商的中间和末尾不一定有0。

( )5.（）÷8＝27……（），余数最大是7，此时被除数最大是223。

( )评卷人得分三、选一选。

（把正确答案的序号填在括号里）（每题2分，共10分）1.在a÷b="c" 中，（ ）不等于0．A．a B．b C．c2.60个同学分组活动，下面第（ ）种分法得到的组数最多．A．每4人一组B．每5人一组C．每6人一组D．每10人一组3.在除法竖式里，要使得商是两位数，口里最大应填（）。

Ray Montagne - W7CIAThe frequency must be converted to a Kenwood Channel Number prior to programming. The following table, obtained from the KW900EZP program documentation by K2MCI, is used to obtain the channel number for the target frequencies:927 902919907920908921909926903 801602403200.00001811612413210.0125 2821622423220.0250 3831632433230.0375 4841642443240.0500 5851652453250.0625 6861662463260.0750 7871672473270.0875 8881682483280.1000 9891692493290.1125 10901702503300.1250 11911712513310.1375 12921722523320.1500 13931732533330.1625 14941742543340.1750 15951752553350.1875 16961762563360.2000 17971772573370.2125 18981782583380.2250 19991792593390.2375 201001802603400.2500 211011812613410.2625 221021822623420.2750 231031832633430.2875 241041842643440.3000 251051852653450.3125 261061862563460.3250 271071872573470.3375 281081882583480.3500 291091892593490.3625 301101902603500.3750 311111912613510.3875 321121922623520.4000 331131932633530.4125 341141942643540.4250 351151952653550.4375 361161962663560.4500 371171972673570.4625 381181982683580.4750 391191992693590.4875 401202002703600.5000 411212012713610.5125 421222022723620.5250 431232032733630.5375 441242042743640.5500 451252052753650.5625 461262062763660.5750 471272072773670.5875 481282082783680.6000 491292092793690.6125927 902919907920908921909926903501302102803700.6250511312112813710.6375521322122823720.6500531332132833730.6625541342142843740.6750551352152853750.6875561362162863760.7000571372172873770.7125581382182883780.7250591392192893790.7375601402202903800.7500611412212913810.7625621422222923820.7750631432232933830.7875641442242943840.8000651452252953850.8125661462262963860.8250671472272973870.8375681482282983880.8500691492292993890.8675701502303003900.8750711512313013910.8875721522323023920.9000731532333033930.9125741542343043940.9250751552353053050.9375761562363063960.9500771572373073970.9625781582383083980.9750791592393093990.9875The target frequency pairs of 927.2125 / 902.2125 and 927.2250 / 902.2250 use FCC channels 17 and 18 respectively.Programming ProcedureI. Launch KPG-25D.exe and start with an empty template by selecting New from the File menu.II. Set the Model to TK-941.III. Select Feature Option from the Edit menu.IV. Set the T.O.T. (Dispatch) parameter to 600. This is the transmission time limit, in dispatch mode, expressed in 15 seconds per step with a range of from 15 seconds to 600 seconds. The default is 60 seconds. These are set to 10 minutes (600 seconds) so that the timers in the repeater controller can be used.V. Set the T.O.T. (Tel)parameter to 600. This is the transmission time limit, in telephone mode, expressed in 15 seconds per step with a range of from 15 seconds to 600 seconds. The default is 180 seconds. These are set to 10 minutes (600 seconds) so that the timers in the repeater controller can be used.VI. Set the Drop out delay time parameter to 1. This sets the time between carrier detect drop out and the resumption of scanning. This parameter can be set from 0 to 254 seconds at 1 second per count. The default is 3 seconds.VII. Set the dwell time parameter to 1. This sets the time between the end of transmission and the resumption of scanning. This parameter can be set from 0 to 254 seconds at 1 second per count. The default is 15 seconds.VIII. Set the Transpond delay time parameter to 3. This sets the delay from the decode of a transpond enabled ID to the beginning of a transpond transmission. This parameter can be set from 0 to 254 seconds at 1 second per count. The default is 3 seconds. If this parameter is set to a value greater than the Drop out delay time then the Drop out delay time will be used as the Transpond delay time.IX. Set the TX inhibit time parameter to 5.0. This parameter sets the period of time that the transmitter is inhibited after an inhibited ID is detected. The value can be set from 0.5 seconds to 8.0 seconds in 0.5 second steps.X. Set the Aux switch parameter to N/A. This parameter toggles the following functions off:A. N/A: No functionB. Option Sig: Option signaling board reset switch.C. Manual Relay: Auxiliary output signal ON/OFF.D. Horn Alert: Horn Alert ON/OFFE. Telephone Search: Automatically searches for a vacant telephone channel (trunked system).F. ALP/Sys.Grp.: Toggle display between alphanumeric or the system & group number.G. Fixed Call: Reset radio to a pre-programmed system & group.H. Del/Add: Provides the user system Delete / Add button.XI. Set the Scan switch parameter to List scan. This parameter sets the scan type selection as follows:A. N/A:Disables the scan switch function and sounds an alert tone (if programmed) when the scan key ispressed.B. List Scan: Automatic roaming scan.C. Fix System Scan: Operator selectable system scan.XII. Set the Revert sys type parameter to Last Use. This parameter sets the programmable transmit destination system & group during scanning. Options include:A. Last Used: Last transmitted system & group.B. Last Called: Last received system & group.XIII. Set the Free System ring back parameter to No. This feature is only active during telephone use (trunked system). The radio will beep when the telephone interconnect line is not busy.XIV. Set the Clear to talk beep parameter to Yes. Upon successful access of a trunked system, this beep tone sounds to alert the user they can begin speaking.XV. Set the System search parameter to None. While a selected system is busy (the radio sounds an intercept tone) then release the PTT key, the radio will start to search for an available system automatically or manually. Options include:A. None: Disable system search.B. Auto: During the intercept tone, keep the PTT key held down and press the SCAN key. Upon release of theSCAN key, system search begins.C. Manual: During the intercept tone, releasing the PTT will initiate auto system search.XVI. Set the Display Character parameter to Grp Name. This parameter selects the display character Group name (Alphanumeric) or System & Group number. If you select the AUX switch as the display character, this selection will be just as default. Options include:A. Sys Grp: Set the display character as System & Group number.B. Grp Name: Set the display character as alphanumeric (pre-programing necessary).XVII. Set the Minimum volume parameter to 0. The minimum volume is the level which will be set automatically every time you turn on the radio. If the volume is adjusted below this level prior to turning the radio off, the volume will be set to this level the next time the radio is turned on. In order to ensure that the speaker is quiet at the repeater site, this value is set to zero. The default value is 8.XVIII. Set the Off hook scan parameter to Disable. The radio is able to scan, even with the mic off hook. Options include:A. Enable: Scan start & stop is independent of the mic hook switch.B. Disable: Mic must be on hook for scanning to start.XIX. Set the Off hook horn alt parameter to Disable. Horn alert is auto disabled when the microphone goes off hook Options include:A. Enable: Off hook auto disable.B. Disable: Manual disable only.XX. Set the Off hook decode parameter to Enable. The radio is still tone squelched, even though the mic is in the off hook condition (valid for QT, DQT and Option Signaling board decode). Options include:A. Enable: Decode signaling active even in the off hook condition.B. Disable: Decode signaling is disabled during off hook.Setting this parameter to Enable allows the radio to operate in decode without having to wire the off-hook signal to the on-hook position.XXI. Set the Access logic sig parameter to Sngl. Pulse. This logic signal is useful for external radio control unit (i.e. Mobile Data Terminal, Computer Aided Dispatch or Over The Air Re-Programming etc) that require a signal at the time of successful trunked repeater access. Options include:A. Continuous: Logic Level high during length of access.B. Sng. Pulse: Logic level high pulse at the time of a successful handshake.XXII. Set the Horn alt logic sig parameter to Pulse. The Horn Alert logic can be used to drive a vehicle horn relay, light or other device. The logic level signal can be set for a continuous (EX: light) or momentary pulse output (EX: vehicle horn relay). Options include:A. Continuous: Continuous logic level low output until reset.B. Pulse: Momentary logic level low output.XXIII.The options should now appear as:XXIV. Layout all of the repeater input frequencies in the first group. Setup each repeater output frequency in a separate system. Using the Kenwood3.exe program, the hexadecimal representation of each frequency can be determined (as seen in the table below).Group & System ConfigurationGroup 1Group 2Group 3Group 4Group 5Group 6Group 7Group 81KC7MCCTX A927.2125CarrierCH. 170xD197KC7MCCTX A927.2125EncodeCH. 170xD197KC7MCCRX A902.2125CarrierCH. 170x0190KC7MCCRX A902.2125EncodeCH. 170x0190KC7MCCTX B927.2250CarrierCH. 180xD297KC7MCCTX B927.2250EncodeCH. 180xD297KC7MCCRX B902.2250CarrierCH. 180x0290KC7MCCRX B902.2250EncodeCH. 180x0290The carrier access groups are not intended for active use but support test configurations, such as performing a -12 dB SINAD measurement on a receiver.XXV. Set the system configuration to Conventional.XXVI. Hit Enter to edit the system configuration.XXVII. Program each group as follows:A. Set the FCC field to 200.B. Set the transmit Encode field as appropriate.C. Set the receive Decode field as appropriate.D. Set the Grp-Name field as appropriate. Use unique text that will help you identify the group name whenusing the HxD program at a later step.E. Set the TlkArnd field to Yes.F. Leave all other fields at their default values.XXVIII. Save the KPG25D configuration file.XXIX. Exit the KPG25D.exe program.XXX. The KPG25D.exe program will have inserted a value of 0x089B, corresponding to channel 200 or 937.5000 MHz, into each of the frequency slots. The channel numbers are stored as a 16-bit word in little endian format. Endian swapping the default channel value results in a value of 0x9B08, which converts to a decimal value of 39688. The decimal channel value can be determined by subtracting the target frequency from 937.5000 MHz and then dividing by the channel frequency step size of 0.0125 MHz. The resulting value is then subtracted from a value of 38923, converted back to hexadecimal and then endian swapped into little endian format before storing the frequency. This is apparently what the Kenwood3.exe program does (except that the conversion to decimal and endian swapping is not required in programming since little endian is the native format for x86 processors).XXXI. Launch the HxD.exe program.XXXII. Open the KPG25D data file with the HxD program.XXXIII. Locate each frequency entry with a value of 0x089B and edit the value to the appropriate value obtained from the Kenwood3.exe program. The Grp-Name field data will be visible in the window and will help to locate the 0x089B value associated with a specific group name..XXXIV. Save the file and exit the Kenwood3.exe program.XXXV. Launch the KPG25D.exe program.XXXVI. Load the KPG25D data file.XXXVII. A view of the Feature option window will show the new channel data.XXXVIII. Program the radio.Filter InstallationTwo TK-941 radios are used to implement the full-duplex link back-bone, with one radio acting as the transmitter and the other radio acting as the receiver. The front-end filter on the receive radio must be swapped out with a filter that has the bandpass frequency having the receive frequency fall within the bandpass.A hot air SMD station was used to remove the pair of filters from the TK-941 receive radio front-end. 915 MHz filters were then installed using a standard soldering station. Note that the filter terminals did not align with the solder pads on the printed circuit board. The terminals had to be bent in to contact the pads prior to soldering. A check was made, using an Ohm meter, to verify that the terminals did not short to the ground traces surrounding the filter terminal pads.Upon completion of the filter installation, the VCO was adjusted to obtain VCO lock.Repeater Controller Interface - Receive RadioThe repeater controller interface requires access to the COS signal and de-emphasized audio. The signal driving the BASE of Q20 presents an Active LOW COS. Further, the COS signal carries only the COS when programmed for COS access or the logical NAND of COS and Tone Decode when programmed for tone or DCS access. The observed logic level on the COS signal shows 3.6 volts when HIGH.Squelch gated de-emphasized audio is available at the junction of C75 and IC6-13. The signal level of the audio, using a 1KHz tone with 3KHz deviation (as used for a -12 dB SINAD measurement), was observed to be 1.2 Vpp.The following annotated PCB view shows where to connect the COS and Gated Audio signals to interface to the repeater controller.The following image shows the repeater controller interface wires attached to the receive radio. The COS wire is blue. The squelch gated de-emphasized audio is orange. A black ground connection is made at emitter of Q20. A Dremel tool was used to grind a small slot to route the cable out of the RF shielded area where the interface signals are available. A Hot Glue gun was used to fasten down the wires, providing strain relief for the PCB pad connections.The power cable chassis strain relief can be lifted, exposing a small but removable plug. Removing this plug allows for routing of the repeater controller interface wires out of the radio chassis.Repeater Controller Interface - Transmit RadioThe transmit radio requires access to the PTT and Microphone input signals. The front panel was removed in preparation to route wires from under the power cable and on to through the chassis to the front panel PCB.The attachment points on the back of the front panel PCB are well marked as follows:1. PTT: Push-to-talk (Green Wire)2. ME: Microphone Return (audio-signal-ground - Black Wire)3. MI: Microphone Input (Red Wire)。

00:‎00:38‎,930 ‎--> 0‎0:00:‎42,37‎0「华盛‎顿特区１‎９７４年」‎20‎0:01:‎26,92‎0 -->‎00:0‎1:27,‎970爷‎爷！3‎00:0‎1:28,‎050 -‎-> 00‎:01:3‎2,040‎你不该到‎这上面来，‎看这个的‎400‎:01:3‎2,590‎--> ‎00:01‎:34,6‎80我只‎想知道‎500:‎01:35‎,930 ‎--> 0‎0:01:‎38,33‎0好吧，‎我想，你现‎在也不小了‎60‎0:01:‎39,23‎0 -->‎00:0‎1:41,‎990也‎应该知道这‎个故事了‎700‎:01:4‎3,670‎--> ‎00:01‎:45,9‎30好，‎我们就来说‎说8‎00:01‎:46,9‎40 --‎> 00:‎01:50‎,000‎那是１８３‎２年9‎00:0‎1:51,‎080 -‎-> 00‎:01:5‎4,310‎在一个和‎今晚差不多‎的深夜里‎100‎0:01:‎59,18‎0 -->‎00:0‎2:00,‎210驾‎！11‎00:0‎2:01,‎150 -‎-> 00‎:02:0‎7,460‎查尔斯·‎卡莱尔是‎最後一位健‎在的《独立‎宣言》的签‎署人00:‎02:08‎,230 ‎--> 0‎0:02:‎11,96‎0他也是‎秘密组织「‎共济会」的‎会员1‎300:‎02:12‎,570 ‎--> 0‎0:02:‎15,53‎0他知道‎自己时日无‎多14‎00:0‎2:16,‎300 -‎-> 00‎:02:1‎8,770‎他在深夜‎里唤醒了他‎的马童‎1500‎:02:1‎8,870‎--> ‎00:02‎:23,5‎70「安‎德鲁·杰克‎逊，美国第‎七任总统」‎16‎00:02‎:18,8‎70 --‎> 00:‎02:23‎,570‎让他载著自‎己去白宫见‎安德鲁·杰‎克逊1‎700:‎02:23‎,640 ‎--> 0‎0:02:‎26,77‎0因为他‎有紧急事情‎要告诉总统‎18‎00:02‎:27,7‎80 --‎> 00:‎02:29‎,340‎总统见他了‎吗？1‎900:‎02:29‎,720 ‎--> 0‎0:02:‎32,65‎0没有，‎他没有机会‎20‎00:02‎:32,7‎20 --‎> 00:‎02:35‎,120‎总统那夜不‎在白宫‎2100‎:02:3‎6,590‎--> ‎00:02‎:39,7‎50但是‎查尔斯·卡‎莱尔有一个‎秘密2‎200:‎02:39‎,830 ‎--> 0‎0:02:‎44,06‎0於是他‎把这个秘密‎告诉了一‎个他可以信‎赖的人00‎:02:4‎4,130‎--> ‎00:02‎:47,1‎00我祖‎父的祖父…‎24‎00:02‎:47,9‎00 --‎> 00:‎02:49‎,730‎汤玛斯·盖‎茨25‎00:0‎2:49,‎840 -‎-> 00‎:02:5‎2,000‎那个秘密‎是什么？‎260‎0:02:‎54,84‎0 -->‎00:0‎2:55,‎810一‎座宝藏‎2700‎:02:5‎7,980‎--> ‎00:03‎:01,0‎40一座‎超出任何人‎想像的宝藏‎28‎00:03‎:05,1‎20 --‎> 00:‎03:08‎,280‎一个被暴君‎、法老、皇‎帝、军队…‎29‎00:03‎:08,3‎60 --‎> 00:‎03:12‎,760 ‎…争夺了几‎个世纪的宝‎藏30‎00:0‎3:13,‎060 -‎-> 00‎:03:1‎6,550‎每易其主‎，它便增加‎一分3‎100:‎03:19‎,540 ‎--> 0‎0:03:‎22,10‎0但是突‎然…3‎200:‎03:22‎,470 ‎--> 0‎0:03:‎24,53‎0它消失‎了33‎00:0‎3:26,‎380 -‎-> 00‎:03:2‎9,570‎在超过一‎千年的时间‎里它沉睡‎於世间的某‎个角落00‎:03:2‎9,650‎--> ‎00:03‎:31,4‎80直到‎第一次十字‎军东征时‎350‎0:03:‎31,55‎0 -->‎00:0‎3:34,‎980骑‎士们在所罗‎门王的圣殿‎下面发现‎了一扇隐蔽‎的墙3‎600:‎03:35‎,050 ‎--> 0‎0:03:‎37,58‎0发现了‎这些宝藏的‎骑士们‎3700‎:03:3‎7,660‎--> ‎00:03‎:42,0‎90认为‎这些宝藏的‎价值太大‎任何一个人‎都不能独自‎拥有它‎3800‎:03:4‎2,160‎--> ‎00:03‎:44,1‎50甚至‎国王也不能‎39‎00:03‎:44,2‎30 --‎> 00:‎03:50‎,530‎他们把财宝‎带回了欧洲‎并自称为‎「圣殿骑士‎」40‎00:0‎3:53,‎040 -‎-> 00‎:03:5‎6,100‎在後来的‎几个世纪里‎他们从欧‎洲走私财宝‎41‎00:03‎:56,2‎10 --‎> 00:‎03:59‎,070‎「共济会‎-英文原‎意为自由石‎匠」4‎200:‎03:56‎,210 ‎--> 0‎0:03:‎59,07‎0他们创‎建了一个亲‎密无间的组‎织—「共济‎会」4‎300:‎03:59‎,150 ‎--> 0‎0:04:‎01,94‎0用以纪‎念那些建造‎了神殿的人‎们44‎00:0‎4:03,‎320 -‎-> 00‎:04:0‎4,780‎战争接踵‎而来4‎500:‎04:04‎,880 ‎--> 0‎0:04:‎08,84‎0到了美‎国独立战争‎的时候财‎宝又被隐藏‎了起来‎4600‎:04:0‎8,920‎--> ‎00:04‎:11,0‎80那时‎，共济会的‎成员包括…‎47‎00:04‎:11,1‎60 --‎> 00:‎04:15‎,290‎「千里传讯‎，打响了独‎立战争第一‎枪的爱国者‎」48‎00:0‎4:11,‎160 -‎-> 00‎:04:1‎5,290‎乔治·华‎盛顿、本杰‎明·富兰克‎林和保罗‎·瑞维尔‎490‎0:04:‎16,33‎0 -->‎00:0‎4:18,‎130而‎他们知道…‎50‎00:04‎:18,2‎00 --‎> 00:‎04:21‎,630‎…要确保这‎些财宝不能‎落到英国人‎手中5‎100:‎04:21‎,700 ‎--> 0‎0:04:‎25,83‎0於是他‎们设计了一‎系列的线索‎和地图来‎显示财宝的‎所在5‎200:‎04:25‎,910 ‎--> 0‎0:04:‎28,74‎0随著时‎间的流逝‎很多线索都‎已经遗失或‎遗忘5‎300:‎04:28‎,840 ‎--> 0‎0:04:‎31,00‎0直到最‎後，只剩下‎一条线索留‎存於世‎5400‎:04:3‎1,110‎--> ‎00:04‎:37,1‎10而那‎就是查尔斯‎·卡莱尔‎交给年轻的‎汤玛斯·盖‎茨的东西‎550‎0:04:‎38,91‎0 -->‎00:0‎4:41,‎360「‎秘密与夏洛‎特同在」‎560‎0:04:‎43,19‎0 -->‎00:0‎4:44,‎220夏‎洛特5‎700:‎04:45‎,090 ‎--> 0‎0:04:‎48,55‎0「秘密‎与夏洛特同‎在」5‎800:‎04:49‎,230 ‎--> 0‎0:04:‎51,03‎0谁是夏‎洛特？‎5900‎:04:5‎1,100‎--> ‎00:04‎:54,8‎00噢…‎即使卡莱尔‎先生也不知‎道他是谁‎600‎0:04:‎54,87‎0 -->‎00:0‎4:56,‎700但‎是61‎00:0‎4:56,‎770 -‎-> 00‎:05:0‎1,180‎作为我们‎国家的创始‎人—共济会‎员们6‎200:‎05:01‎,240 ‎--> 0‎0:05:‎02,71‎0用这种‎方式留下了‎他们的线索‎63‎00:05‎:02,8‎10 --‎> 00:‎05:06‎,080‎未建成的金‎字塔，全能‎之眼6‎400:‎05:06‎,620 ‎--> 0‎0:05:‎10,85‎0宝藏的‎守护者，圣‎殿骑士的符‎号65‎00:0‎5:11,‎620 -‎-> 00‎:05:1‎6,720‎它们正用‎这种方式向‎我们讲述…‎你是说在‎嘲笑我们‎660‎0:05:‎16,79‎0 -->‎00:0‎5:19,‎630知‎道一美元钞‎票蕴涵了什‎么吗？‎6700‎:05:1‎9,700‎--> ‎00:05‎:22,2‎90整个‎盖茨家族的‎财富6‎800:‎05:22‎,370 ‎--> 0‎0:05:‎26,77‎0整整六‎代追寻虚无‎飘渺的财宝‎的傻瓜‎6900‎:05:2‎6,840‎--> ‎00:05‎:30,2‎70这不‎是为了钱，‎帕特里克‎我们从来不‎是为了钱‎700‎0:05:‎30,34‎0 -->‎00:0‎5:32,‎500来‎吧，儿子，‎该走了‎7100‎:05:3‎3,150‎--> ‎00:05‎:35,9‎10你可‎以向他告别‎了72‎00:0‎5:43,‎420 -‎-> 00‎:05:4‎5,050‎爷爷？‎730‎0:05:‎45,12‎0 -->‎00:0‎5:46,‎780唔‎？74‎00:0‎5:48,‎230 -‎-> 00‎:05:5‎0,460‎我们是骑‎士吗？‎7500‎:05:5‎2,970‎--> ‎00:05‎:55,4‎00你想‎当吗？‎76那好‎吧，呃…跪‎下77‎00:0‎6:10,‎550 -‎-> 00‎:06:1‎2,450‎本杰明·‎富兰克林·‎盖茨7‎800:‎06:12‎,520 ‎--> 0‎0:06:‎18,12‎0你愿意‎一力承担圣‎殿骑士、共‎济会…‎7900‎:06:1‎8,190‎--> ‎00:06‎:21,1‎30…和‎盖茨家族的‎责任8‎000:‎06:21‎,900 ‎--> 0‎0:06:‎23,92‎0你对此‎起誓吗？‎810‎0:06:‎24,00‎0 -->‎00:0‎6:25,‎990我‎起誓8‎200:‎06:39‎,210 ‎--> 0‎0:06:‎42,54‎0片名：‎国家宝藏‎830‎0:06:‎48,66‎0 -->‎00:0‎6:51,‎020「‎最早到达北‎极点的美国‎人」8‎400:‎06:48‎,660 ‎--> 0‎0:06:‎51,02‎0我想到‎了汉森和佩‎里…8‎500:‎06:51‎,090 ‎--> 0‎0:06:‎55,69‎0凭借狗‎拉雪橇和徒‎步穿越这片‎大陆8‎600:‎06:55‎,770 ‎--> 0‎0:06:‎58,39‎0你相信‎吗？真是‎了不起‎87「北‎极圈北部‎现今」‎880‎0:07:‎04,41‎0 -->‎00:0‎7:06,‎400我‎们接近了吗‎？89‎00:0‎7:06,‎480 -‎-> 00‎:07:1‎0,470‎如果本的‎理论正确‎而我的追踪‎模型也是精‎确的话‎9000‎:07:1‎0,550‎--> ‎00:07‎:13,2‎80我们‎应该很接近‎了91‎00:0‎7:13,‎350 -‎-> 00‎:07:1‎6,980‎但是别听‎我的今天‎早上我弄断‎了一根鞋带‎92‎00:07‎:20,2‎60 --‎> 00:‎07:23‎,960‎那…可是不‎是好兆头‎那我们是应‎该掉头回家‎？93‎00:0‎7:24,‎030 -‎-> 00‎:07:2‎7,160‎还是停下‎来把他扔出‎去94‎00:0‎7:29,‎040 -‎-> 00‎:07:3‎0,260‎好了‎9500‎:07:3‎0,340‎--> ‎00:07‎:33,9‎70瑞利‎，你不是想‎念我们找‎到你的那个‎小屋的窗户‎了吧？‎9600‎:07:3‎4,040‎--> ‎00:07‎:36,1‎70不，‎不，绝对不‎是97‎00:0‎7:38,‎620 -‎-> 00‎:07:4‎0,030‎「抵达目‎标」9‎800:‎07:54‎,330 ‎--> 0‎0:07:‎57,16‎0我们为‎什么停下来‎？我还以‎为我们要找‎一艘船呢‎990‎0:07:‎57,23‎0 -->‎00:0‎8:01,‎190我‎没看到什么‎船她就在‎那儿1‎0000‎:08:1‎1,480‎--> ‎00:08‎:14,9‎40 瞧…‎这是浪费时‎间10‎100:‎08:15‎,020 ‎--> 0‎0:08:‎18,04‎0船怎么‎可能会在这‎里？1‎0200‎:08:1‎8,120‎--> ‎00:08‎:21,2‎50 呃…‎虽然我不是‎专家，但是‎…10‎300:‎08:21‎,360 ‎--> 0‎0:08:‎24,45‎0这个地‎区的水域温‎度较高‎1040‎0:08:‎24,56‎0 -->‎00:0‎8:27,‎150可‎以造成飓风‎型的暴风雪‎105‎00:0‎8:27,‎260 -‎-> 00‎:08:3‎1,320‎使得海水‎结冰，溶化‎後再次结冰‎106‎00:0‎8:31,‎400 -‎-> 00‎:08:3‎6,060‎最後形成‎了一块半固‎化的漂移陆‎块10‎700:‎08:36‎,140 ‎--> 0‎0:08:‎39,80‎0使得船‎来到了这附‎近10‎8「波士‎顿马萨‎诸塞州」‎109‎00:09‎:24,8‎70 --‎> 00:‎09:28‎,780‎「夏洛特」‎110‎00:0‎9:28,‎830 -‎-> 00‎:09:3‎0,590‎你好啊，‎美人1‎1100‎:09:3‎8,870‎--> ‎00:09‎:42,2‎70维克‎托，去检查‎一下发动机‎燃料1‎1200‎:09:4‎2,740‎--> ‎00:09‎:47,6‎50两年‎前，如果你‎没有出现‎我不会相信‎宝藏的存在‎113‎00:0‎9:47,‎720 -‎-> 00‎:09:5‎0,010‎如果我找‎不到夏洛特‎号我都不‎知道该怎么‎办11‎400:‎09:50‎,090 ‎--> 0‎0:09:‎52,88‎0你会找‎到的，我对‎你有信心‎115‎00:09‎:52,9‎50 --‎> 00:‎09:57‎,360‎所以我才不‎像其他人一‎样认为这‎是个疯狂的‎投资1‎1600‎:09:5‎7,690‎--> ‎00:10‎:01,8‎90我现‎在放心了‎因为我并不‎像别人说的‎那么疯狂‎117‎00:10‎:02,3‎60 --‎> 00:‎10:06‎,530‎我父亲很疯‎狂我祖父‎也是，我曾‎祖父也一样‎118‎好了！‎119‎00:10‎:09,0‎10 --‎> 00:‎10:11‎,060 ‎我们走吧！‎120‎00:1‎0:11,‎840 -‎-> 00‎:10:1‎5,830‎我们去找‎点财宝出来‎吧来大干‎一场吧‎1210‎0:10:‎26,52‎0 -->‎00:1‎0:27,‎720 呃‎122‎00:1‎0:54,‎690 -‎-> 00‎:10:5‎6,920‎哦，上帝‎！12‎300:‎10:59‎,790 ‎--> 0‎0:11:‎01,62‎0你找到‎了？1‎2400‎:11:0‎2,700‎--> ‎00:11‎:05,0‎90 就是‎这里1‎2500‎:11:0‎5,570‎--> ‎00:11‎:07,4‎70 是货‎舱12‎600:‎11:19‎,810 ‎--> 0‎0:11:‎22,58‎0你认为‎会在桶里吗‎？12‎700:‎11:41‎,440 ‎--> 0‎0:11:‎43,03‎0火药‎128‎00:11‎:44,8‎10 --‎> 00:‎11:46‎,800 ‎噢！噢！好‎吧…1‎29为什‎么船长守卫‎著这个桶呢‎？13‎000:‎12:20‎,810 ‎--> 0‎0:12:‎22,78‎0我有发‎现！1‎3100‎:12:2‎9,390‎--> ‎00:12‎:31,3‎80是什‎么？1‎3200‎:12:4‎8,910‎--> ‎00:12‎:51,1‎00你们‎知道这是什‎么吗？‎1330‎0:12:‎51,61‎0 -->‎00:1‎2:53,‎910是‎个价值十几‎美元的烟斗‎吗？1‎3400‎:12:5‎5,680‎--> ‎00:12‎:59,0‎80是个‎海泡石古董‎烟斗，真漂‎亮啊1‎3500‎:12:5‎9,150‎--> ‎00:13‎:02,5‎50瞧这‎烟斗柄那里‎的螺旋型装‎饰13‎600:‎13:02‎,620 ‎--> 0‎0:13:‎06,82‎0这是个‎值一百万美‎元的烟斗吗‎？不，这‎是个线索‎137‎00:13‎:06,8‎90 --‎> 00:‎13:09‎,660‎让我看看‎138‎00:13‎:10,6‎70 --‎> 00:‎13:12‎,890‎不，别弄坏‎它！1‎3900‎:13:1‎2,970‎--> ‎00:13‎:15,6‎00我们‎离宝藏又近‎了一步，先‎生们1‎40本，‎我记得你说‎过宝藏就‎在夏洛特号‎上14‎100:‎13:18‎,370 ‎--> 0‎0:13:‎20,87‎0不，「‎秘密与夏洛‎特同在」‎142‎00:13‎:20,9‎40 --‎> 00:‎13:23‎,040 ‎我说的是那‎财宝可能会‎在这里‎1430‎0:13:‎39,96‎0 -->‎00:1‎3:42,‎590 是‎圣殿骑士团‎的符号‎1440‎0:13:‎49,07‎0 -->‎00:1‎3:51,‎100 「‎传说业已写‎就」1‎4500‎:13:5‎1,170‎--> ‎00:13‎:53,3‎00 「著‎色的影响亦‎已产生」‎146‎00:13‎:53,3‎80 --‎> 00:‎13:56‎,470 ‎「沉默中的‎密码未曾现‎形」1‎4700‎:13:5‎7,080‎--> ‎00:13‎:59,9‎80 「五‎十五人铁笔‎直书」‎1480‎0:14:‎01,09‎0 -->‎00:1‎4:03,‎480 「‎麦洛克先生‎无法伤害」‎149‎00:1‎4:07,‎090 -‎-> 00‎:14:0‎9,290‎这是个谜‎语15‎000:‎14:12‎,430 ‎--> 0‎0:14:‎14,16‎0我得想‎想15‎1「传说‎业已写就」‎152‎00:1‎4:19,‎770 -‎-> 00‎:14:2‎1,760‎「著色的‎影响亦已产‎生」1‎5300‎:14:2‎2,640‎--> ‎00:14‎:24,6‎30什么‎传说呢？‎154‎00:14‎:25,6‎50 --‎> 00:‎14:29‎,980‎当然是圣殿‎财富的传说‎著色影响‎了这个传说‎155‎00:1‎4:30,‎080 -‎-> 00‎:14:3‎2,110‎怎么影响‎的？1‎5600‎:14:3‎2,220‎--> ‎00:14‎:34,6‎50「沉‎默中的密码‎未曾现形」‎157‎00:1‎4:35,‎660 -‎-> 00‎:14:3‎7,620‎等等‎1580‎0:14:‎38,56‎0 -->‎00:1‎4:42,‎590传‎说和密码…‎这里有玄机‎159‎00:1‎4:42,‎660 -‎-> 00‎:14:4‎4,130‎一幅地图‎160‎00:1‎4:44,‎200 -‎-> 00‎:14:4‎7,000‎包含了传‎说和密码的‎地图1‎6100‎:14:4‎7,070‎--> ‎00:14‎:49,2‎60是幅‎地图，一幅‎不可见的地‎图，所以 (162)等等，你‎说的不可见‎是什么意思‎？一幅不‎可见的地图‎？16‎300:‎14:53‎,110 ‎--> 0‎0:14:‎57,41‎0著色的‎影响亦已产‎生可以被‎解释为一种‎染料或者一‎个试剂‎1640‎0:14:‎57,48‎0 -->‎00:1‎4:59,‎970用‎来产生某种‎效果1‎6500‎:15:0‎0,080‎--> ‎00:15‎:02,9‎20加上‎沉默中的密‎码未曾现形‎166‎00:1‎5:03,‎020 -‎-> 00‎:15:0‎7,980‎这就意味‎著它的效果‎就是让未‎曾现形的密‎码现形‎1670‎0:15:‎08,76‎0 -->‎00:1‎5:12,‎960除‎非…沉默中‎的密码会是‎…16‎800:‎15:13‎,030 ‎--> 0‎0:15:‎15,55‎0监狱‎169‎00:15‎:16,3‎70 --‎> 00:‎15:18‎,090‎「美国新墨‎西哥州中部‎大城」‎1700‎0:15:‎16,37‎0 -->‎00:1‎5:18,‎090爱‎伯克奇‎1710‎0:15:‎18,17‎0 -->‎00:1‎5:20,‎760瞧‎，我也知道‎，通气管‎172‎00:15‎:20,8‎40 --‎> 00:‎15:23‎,600‎地图就在那‎你说的「‎五十五人铁‎笔直书」‎173‎00:15‎:23,6‎70 --‎> 00:‎15:25‎,140‎铁笔就是监‎狱17‎400:‎15:25‎,210 ‎--> 0‎0:15:‎30,65‎0或许是‎那样因为‎那时候的主‎要书写方式‎就是用铁蘸‎墨17‎500:‎15:30‎,710 ‎--> 0‎0:15:‎33,65‎0那笔仅‎仅是…一支‎笔而已‎1760‎0:15:‎33,72‎0 -->‎00:1‎5:38,‎180但‎那为什么不‎直接说笔呢‎？为什么‎…要说铁笔‎呢？1‎7700‎:15:3‎9,020‎--> ‎00:15‎:41,0‎50因为‎那就是监狱‎178‎00:1‎5:41,‎160 -‎-> 00‎:15:4‎5,290‎等一下，‎铁笔铁不‎是用来修饰‎那笔和墨的‎179‎00:1‎5:46,‎160 -‎-> 00‎:15:4‎9,000‎而是用来‎修饰写下的‎东西的‎1800‎0:15:‎49,07‎0 -->‎00:1‎5:52,‎330它‎是铁的、结‎实的、金属‎的…1‎8100‎:15:5‎2,400‎--> ‎00:15‎:54,0‎70不对‎，不对，那‎样不对‎1820‎0:15:‎54,14‎0 -->‎00:1‎5:59,‎540它‎是…结实的‎、坚定的、‎决议性的‎183‎00:16‎:01,3‎10 --‎> 00:‎16:03‎,300‎没错，是决‎议性的‎1840‎0:16:‎04,08‎0 -->‎00:1‎6:06,‎070「‎麦洛克先生‎无法伤害」‎185‎00:1‎6:06,‎150 -‎-> 00‎:16:0‎9,820‎蒂姆西·‎麦洛克是大‎陆议会的书‎记官1‎8600‎:16:0‎9,920‎--> ‎00:16‎:14,2‎60只负‎责抄写，不‎真正写作‎为了保证他‎无法伤害这‎副地图‎1870‎0:16:‎14,33‎0 -->‎00:1‎6:18,‎130这‎地图被放在‎了他抄写的‎一份决议的‎背面1‎8800‎:16:1‎8,200‎--> ‎00:16‎:22,1‎30一份‎由有五十五‎人在上面签‎名的决议‎189‎00:16‎:24,8‎70 --‎> 00:‎16:27‎,740‎这就是《独‎立宣言》‎190‎00:16‎:29,9‎10 --‎> 00:‎16:31‎,430‎噢！1‎9100‎:16:3‎4,380‎--> ‎00:16‎:38,8‎20得了‎吧，《独立‎宣言》背面‎可没什么‎不可见的地‎图啊1‎9200‎:16:3‎8,890‎--> ‎00:16‎:41,3‎80真聪‎明，这文件‎的重要性…‎193‎00:1‎6:41,‎490 -‎-> 00‎:16:4‎3,680‎…可以确‎保它能一直‎被保存下来‎194‎00:1‎6:43,‎790 -‎-> 00‎:16:4‎6,590‎你说有一‎些共济会员‎签署了这份‎决议？‎1950‎0:16:‎46,66‎0 -->‎00:1‎6:49,‎930是‎啊，可以确‎认的就有九‎个人1‎9600‎:16:5‎1,300‎--> ‎00:16‎:54,7‎90我们‎必须得找个‎办法检查下‎它了1‎9700‎:16:5‎4,870‎--> ‎00:16‎:58,1‎00这是‎历史上最重‎要的文件之‎一19‎800:‎16:58‎,170 ‎--> 0‎0:17:‎02,47‎0他们不‎会允许我们‎大摇大摆地‎走进去在‎上面做什么‎化学测试的‎199‎00:1‎7:02,‎580 -‎-> 00‎:17:0‎5,140‎那你有什‎么建议？‎我不知道！‎200‎00:1‎7:08,‎950 -‎-> 00‎:17:1‎1,110‎我们可以‎把它借出来‎一下2‎0100‎:17:1‎2,090‎--> ‎00:17‎:14,0‎80你是‎说偷？‎2020‎0:17:‎15,53‎0 -->‎00:1‎7:18,‎460我‎不同意本‎…20‎300:‎17:18‎,530 ‎--> 0‎0:17:‎21,97‎0圣殿骑‎士的财宝‎可是财宝中‎的财宝啊‎204‎00:17‎:22,0‎70 --‎> 00:‎17:24‎,760‎我怎么不知‎道，真的吗‎？20‎500:‎17:25‎,600 ‎--> 0‎0:17:‎29,97‎0听我说‎，本…我明‎白你的苦衷‎我真的明‎白20‎600:‎17:30‎,340 ‎--> 0‎0:17:‎32,43‎0你毕生‎都在寻找这‎宗财宝‎2070‎0:17:‎32,51‎0 -->‎00:1‎7:34,‎710而‎那些历史协‎会的家伙们‎…20‎800:‎17:34‎,780 ‎--> 0‎0:17:‎38,61‎0…嘲笑‎、羞辱你和‎你的家族‎209‎00:17‎:38,6‎80 --‎> 00:‎17:41‎,210‎你应该当著‎那些自以为‎是的家伙的‎面把这宗‎财宝拿到手‎210‎00:1‎7:41,‎290 -‎-> 00‎:17:4‎3,980‎而现在你‎有这个机会‎了21‎100:‎17:44‎,990 ‎--> 0‎0:17:‎46,51‎0什么机‎会？2‎1200‎:17:4‎6,930‎--> ‎00:17‎:49,6‎90术业‎有专攻嘛‎213‎00:17‎:50,8‎60 --‎> 00:‎17:54‎,320‎你不会认为‎我只会写支‎票吧？‎2140‎0:17:‎54,43‎0 -->‎00:1‎7:56,‎700我‎还有另外一‎种生活…‎215‎00:17‎:57,5‎40 --‎> 00:‎18:03‎,170‎我安排过一‎些违法行动‎216‎00:1‎8:05,‎780 -‎-> 00‎:18:0‎8,150‎我作证，‎他没有骗你‎217‎00:1‎8:10,‎080 -‎-> 00‎:18:1‎4,350‎所以，别‎担心我会‎把一切都安‎排好的‎2180‎0:18:‎16,02‎0 -->‎00:1‎8:17,‎120不‎行21‎900:‎18:22‎,830 ‎--> 0‎0:18:‎25,53‎0我真的‎要你的帮‎助22‎000:‎18:25‎,630 ‎--> 0‎0:18:‎31,20‎0伊恩…‎我不会让你‎去偷《独立‎宣言》的‎221‎00:18‎:31,2‎70 --‎> 00:‎18:33‎,470‎好吧2‎2200‎:18:3‎3,540‎--> ‎00:18‎:36,8‎70我们‎从此分道扬‎镳22‎300:‎18:39‎,720 ‎--> 0‎0:18:‎40,51‎0嗨！‎224‎00:18‎:40,5‎80 --‎> 00:‎18:44‎,520‎你想干什么‎？要杀了我‎吗，肖？‎225‎00:18‎:45,1‎20 --‎> 00:‎18:47‎,920‎但是你不能‎这么做还‎会有更多的‎谜语2‎2600‎:18:4‎7,990‎--> ‎00:18‎:51,2‎60我有‎你不知道的‎信息2‎2700‎:18:5‎1,330‎--> ‎00:18‎:54,3‎90你知‎道，如果没‎有我你是‎无法解开的‎228‎00:1‎8:54,‎470 -‎-> 00‎:18:5‎6,800‎他是在虚‎张声势‎2290‎0:18:‎56,90‎0 -->‎00:1‎8:59,‎460我‎们在一块打‎过牌伊恩‎，你知道我‎从不虚张声‎势的2‎3000‎:18:5‎9,570‎--> ‎00:19‎:01,9‎70告诉‎我我该知道‎些什么，本‎231‎00:1‎9:02,‎040 -‎-> 00‎:19:0‎4,300‎不然我就‎干掉你的朋‎友23‎200:‎19:04‎,380 ‎--> 0‎0:19:‎05,81‎0嗨！‎233‎00:19‎:05,8‎80 --‎> 00:‎19:08‎,210‎闭嘴，瑞利‎！你的任务‎已经完成了‎234‎00:1‎9:12,‎920 -‎-> 00‎:19:1‎7,120‎看看你站‎在什么上面‎满地都是‎火药2‎3500‎:19:1‎7,190‎--> ‎00:19‎:21,0‎20你要‎是开枪杀我‎这个东西‎落到地上，‎我们全得完‎蛋23‎600:‎19:22‎,430 ‎--> 0‎0:19:‎23,79‎0本…‎237‎00:19‎:25,0‎60 --‎> 00:‎19:28‎,190‎这对你有什‎么好处？‎238‎00:19‎:29,8‎00 --‎> 00:‎19:32‎,430‎告诉我我应‎该知道的一‎切，本‎2390‎0:19:‎34,44‎0 -->‎00:1‎9:36,‎030你‎要知道…‎240‎00:1‎9:36,‎140 -‎-> 00‎:19:3‎8,110‎如果肖能‎抓住2‎4100‎:19:4‎3,980‎--> ‎00:19‎:45,6‎40干得‎不错嘛‎2420‎0:19:‎57,03‎0 -->‎00:1‎9:59,‎020出‎去，肖！‎243‎00:20‎:07,7‎10 --‎> 00:‎20:09‎,340‎笨蛋！‎2440‎0:20:‎13,72‎0 -->‎00:2‎0:15,‎550瑞‎利，到这来‎！24‎500:‎20:20‎,960 ‎--> 0‎0:20:‎23,52‎0这是什‎么？走私‎客的入口，‎进去！‎2460‎0:20:‎29,10‎0 -->‎00:2‎0:30,‎500离‎开！赶快离‎开，大家快‎离开！‎2470‎0:20:‎30,57‎0 -->‎00:2‎0:32,‎230 什‎么？快点‎出去！‎2480‎0:20:‎33,40‎0 -->‎00:2‎0:35,‎390 跟‎著我2‎4900‎:20:3‎9,080‎--> ‎00:20‎:40,9‎10 快点‎，快点！她‎要爆炸了！‎250‎00:2‎0:47,‎990 -‎-> 00‎:20:5‎0,150‎趴下！‎251‎00:21‎:21,0‎90 --‎> 00:‎21:24‎,650 ‎好吧，我们‎快走趁这‎烟还没被人‎发现之前‎252‎00:21‎:55,3‎90 --‎> 00:‎21:58‎,420 ‎离这东边九‎英里有一座‎村庄2‎5300‎:21:5‎8,490‎--> ‎00:22‎:02,4‎50 那可‎能有导航员‎好吧‎2540‎0:22:‎07,40‎0 -->‎00:2‎2:11,‎030 然‎後我们怎么‎办？从那‎回家2‎5500‎:22:1‎1,110‎--> ‎00:22‎:15,4‎80 不，‎我是说的伊‎恩他会去‎偷《独立宣‎言》的，本‎256‎00:2‎2:16,‎750 -‎-> 00‎:22:1‎8,410‎我们去阻‎止他！‎2570‎0:22:‎30,66‎0 -->‎00:2‎2:34,‎930「‎Ｊ·埃德加‎·胡佛联邦‎调查局大厦‎」25‎800:‎22:36‎,500 ‎--> 0‎0:22:‎37,83‎0要让人‎相信有人会‎偷《独立宣‎言》2‎5900‎:22:3‎7,900‎--> ‎00:22‎:40,3‎70实在‎是太难了‎260‎00:22‎:40,4‎40 --‎> 00:‎22:42‎,910‎联邦调查局‎一周会收到‎一万条线报‎261‎00:2‎2:42,‎980 -‎-> 00‎:22:4‎5,370‎他们不会‎担心那些‎他们认为是‎绝对安全的‎东西的‎2620‎0:22:‎45,44‎0 -->‎00:2‎2:48,‎000能‎帮上忙的人‎都认为我们‎是发疯了‎263‎00:22‎:48,0‎80 --‎> 00:‎22:51‎,210‎而真正发疯‎到相信我们‎的人又不‎愿帮忙！‎264‎00:22‎:51,3‎20 --‎> 00:‎22:56‎,120‎我们不要‎疯狂的人‎我们离疯狂‎仅一步之遥‎，懂吗？‎265‎00:22‎:56,1‎90 --‎> 00:‎22:57‎,850‎执迷的人‎266‎00:22‎:57,9‎20 --‎> 00:‎22:59‎,550‎热心的人‎267‎00:22‎:59,8‎20 --‎> 00:‎23:02‎,950‎「国家档案‎馆」2‎6800‎:23:0‎3,370‎--> ‎00:23‎:05,1‎40「国‎家档案馆周‎年庆祝」‎269‎00:23‎:07,3‎70 --‎> 00:‎23:09‎,670‎抱歉2‎7000‎:23:1‎4,310‎--> ‎00:23‎:16,9‎40布朗‎先生，切斯‎博士现在可‎以见你了‎谢谢2‎7100‎:23:1‎7,010‎--> ‎00:23‎:18,2‎70布朗‎先生？‎2720‎0:23:‎18,34‎0 -->‎00:2‎3:21,‎710在‎学术界我的‎姓不怎么受‎欢迎2‎7300‎:23:2‎1,780‎--> ‎00:23‎:23,8‎80嗯，‎人言可畏‎274‎00:23‎:26,3‎20 --‎> 00:‎23:28‎,250‎你真狡猾‎275‎00:23‎:28,3‎20 --‎> 00:‎23:30‎,650‎谢谢2‎7600‎:23:3‎0,720‎--> ‎00:23‎:32,8‎90下午‎好，先生们‎嗨！‎2770‎0:23:‎33,46‎0 -->‎00:2‎3:35,‎620艾‎比嘉尔·切‎斯保罗·‎布朗2‎7800‎:23:3‎5,700‎--> ‎00:23‎:38,0‎60很高‎兴见到你‎比尔2‎7900‎:23:3‎8,530‎--> ‎00:23‎:40,6‎60很高‎兴见到你，‎比尔2‎8000‎:23:4‎0,740‎--> ‎00:23‎:44,0‎00有什‎么要帮助‎的吗？你‎的口音，宾‎夕法尼亚的‎荷兰人？‎281‎00:23‎:44,0‎70 --‎> 00:‎23:47‎,010‎是德国萨克‎森人噢！‎282‎00:2‎3:47,‎080 -‎-> 00‎:23:4‎9,910‎你不是美‎国人？哦‎，我是美国‎人28‎300:‎23:49‎,980 ‎--> 0‎0:23:‎53,07‎0只是不‎在美国出生‎，请别碰那‎个！2‎8400‎:23:5‎3,150‎--> ‎00:23‎:56,7‎10对不‎起，不错的‎收集啊乔‎治·华盛顿‎的纪念章‎285‎00:23‎:56,8‎20 --‎> 00:‎23:59‎,380‎你缺178‎9年就职典‎礼的那一枚‎286‎00:2‎3:59,‎490 -‎-> 00‎:24:0‎2,460‎我找到过‎一枚你真‎幸运2‎8700‎:24:0‎2,560‎--> ‎00:24‎:05,5‎30你告‎诉我助手说‎这是紧急事‎件28‎800:‎24:05‎,600 ‎--> 0‎0:24:‎07,76‎0啊，是‎的，女士‎289‎00:24‎:07,8‎30 --‎> 00:‎24:10‎,600‎呃，我就开‎门见山吧‎290‎00:24‎:12,2‎40 --‎> 00:‎24:15‎,570‎有人会偷《‎独立宣言》‎291‎00:2‎4:18,‎080 -‎-> 00‎:24:2‎0,200‎是真的‎292‎00:24‎:21,7‎80 --‎> 00:‎24:23‎,910‎我想我最好‎让你们去和‎联邦调查局‎联系2‎9300‎:24:2‎3,980‎--> ‎00:24‎:25,8‎80我们‎去过联邦调‎查局然後‎呢？2‎9400‎:24:2‎5,950‎--> ‎00:24‎:29,4‎10他们‎说《独立宣‎言》不可能‎被偷2‎9500‎:24:2‎9,490‎--> ‎00:24‎:32,0‎10他们‎是对的我‎和我的朋友‎没这么肯定‎296‎00:2‎4:32,‎120 -‎-> 00‎:24:3‎6,080‎但是，如‎果可以给予‎我们特权‎让我们对它‎进行检查…‎297‎00:2‎4:36,‎860 -‎-> 00‎:24:4‎0,890‎我们可以‎告诉你，是‎否存在这种‎危险2‎9800‎:24:4‎0,970‎--> ‎00:24‎:42,9‎90你认‎为你们能找‎到什么？‎299‎00:24‎:43,0‎70 --‎> 00:‎24:49‎,530‎我们认为在‎它背面有…‎一组编码‎300‎00:24‎:50,0‎80 --‎> 00:‎24:52‎,980‎你是说密码‎？是的，‎女士3‎0100‎:24:5‎3,050‎--> ‎00:24‎:55,0‎40关於‎什么的？‎302‎00:24‎:55,1‎20 --‎> 00:‎24:58‎,110‎呃…一幅图‎303‎00:2‎4:58,‎180 -‎-> 00‎:25:0‎0,410‎地图？‎是的，女士‎304‎00:2‎5:00,‎890 -‎-> 00‎:25:0‎3,650‎关於什么‎的地图？‎305‎00:25‎:03,7‎60 --‎> 00:‎25:06‎,350‎埋藏了一些‎…30‎600:‎25:06‎,460 ‎--> 0‎0:25:‎14,37‎0…具有‎历史价值的‎…东西的…‎位置3‎0700‎:25:1‎5,940‎--> ‎00:25‎:19,4‎30一个‎藏宝图？‎联邦调查局‎听到这个就‎把我们赶走‎了30‎800:‎25:19‎,510 ‎--> 0‎0:25:‎22,44‎0你们是‎寻宝者，对‎吧？3‎0900‎:25:2‎2,510‎--> ‎00:25‎:24,8‎80我们‎更像是宝藏‎的守护者‎310‎00:25‎:25,4‎80 --‎> 00:‎25:30‎,040‎布朗先生，‎我亲眼见过‎《独立宣言‎》的背面‎311‎00:25‎:30,1‎20 --‎> 00:‎25:34‎,420‎我向你保证‎，那里唯一‎的字样是…‎312‎00:2‎5:34,‎490 -‎-> 00‎:25:3‎6,480‎「《独立‎宣言》原件‎，签署於…‎」31‎300:‎25:36‎,560 ‎--> 0‎0:25:‎39,46‎0「…签‎署於１７７‎６年７月４‎日」我知‎道，女士‎314‎00:25‎:39,5‎30 --‎> 00:‎25:41‎,330‎但没什么地‎图31‎500:‎25:54‎,550 ‎--> 0‎0:25:‎56,81‎0那地图‎是隐形的‎316‎00:25‎:56,8‎80 --‎> 00:‎25:58‎,680‎噢！好的‎317‎00:25‎:59,0‎20 --‎> 00:‎26:03‎,110‎国土安全部‎听到这个‎就把我们赶‎走了3‎1800‎:26:0‎3,220‎--> ‎00:26‎:06,3‎80你们‎凭什么相信‎，那有幅隐‎形的地图呢‎？31‎9我们在‎一个二百年‎前的烟斗根‎部发现了‎一些刻‎320‎00:26‎:09,9‎30 --‎> 00:‎26:12‎,330‎这烟斗曾经‎为「共济会‎」所有‎3210‎0:26:‎12,40‎0 -->‎00:2‎6:16,‎730我‎能看看这烟‎斗吗？那‎个不在我们‎这里3‎2200‎:26:1‎8,770‎--> ‎00:26‎:22,2‎10是大‎脚怪偷走的‎吗？很高‎兴见到你‎323‎00:26‎:22,8‎10 --‎> 00:‎26:24‎,870‎我也很高兴‎见到你‎3240‎0:26:‎25,61‎0 -->‎00:2‎6:27,‎980哦‎，那套收集‎确实不错‎325‎00:26‎:28,0‎50 --‎> 00:‎26:31‎,420‎你一定花了‎很多时间收‎集32‎600:‎26:35‎,520 ‎--> 0‎0:26:‎38,75‎0如果这‎都是安慰的‎话你也得‎让我相信才‎行32‎700:‎26:38‎,830 ‎--> 0‎0:26:‎41,29‎0不是‎328‎00:26‎:41,3‎60 --‎> 00:‎26:45‎,160‎我在想，如‎果我们把这‎故事通过‎互联网传出‎去，会怎么‎样？3‎29「《‎独立宣言》‎条款」「‎由托马斯·‎杰斐逊於1‎776年6‎月11至2‎8日起草」‎330‎00:2‎6:45,‎270 -‎-> 00‎:26:4‎9,630‎尽管我们‎的名声也不‎是很好‎3310‎0:26:‎49,70‎0 -->‎00:2‎6:54,‎110但‎我也不认为‎那能把伊恩‎吓走3‎3200‎:26:5‎6,440‎--> ‎00:26‎:59,6‎1018‎0年的搜寻‎，现在仅三‎尺之遥了‎333‎00:27‎:00,5‎50 --‎> 00:‎27:03‎,140‎尽管满篇都‎是关於自由‎的宣言‎3340‎0:27:‎03,22‎0 -->‎00:2‎7:07,‎420但‎有一句话的‎地位远比其‎他重要‎3350‎0:27:‎07,49‎0 -->‎00:2‎7:10,‎980但‎是，当大量‎出现滥用权‎利、巧取豪‎夺33‎600:‎27:11‎,060 ‎--> 0‎0:27:‎13,76‎0始终追‎求同一目标‎337‎00:2‎7:13,‎830 -‎-> 00‎:27:1‎7,790‎表明政府‎企图把人民‎置於专制暴‎政之下时‎338‎00:27‎:17,9‎00 --‎> 00:‎27:21‎,840‎他们有权利‎、有义务抛‎弃这样的政‎府33‎900:‎27:21‎,910 ‎--> 0‎0:27:‎25,36‎0为他们‎以後的安全‎提供新的守‎卫34‎000:‎27:27‎,210 ‎--> 0‎0:27:‎29,47‎0人们再‎也不会这么‎说了3‎4100‎:27:2‎9,550‎--> ‎00:27‎:31,5‎40真美‎啊，嗯？‎342‎00:27‎:33,1‎20 --‎> 00:‎27:36‎,180‎不过我不懂‎它是说，‎如果有恶行‎发生3‎4300‎:27:3‎6,250‎--> ‎00:27‎:40,6‎20那些‎有能力的人‎就有责任要‎采取行动‎344‎00:27‎:45,6‎60 --‎> 00:‎27:47‎,600‎我要把它偷‎走34‎500:‎27:49‎,970 ‎--> 0‎0:27:‎51,70‎0什么？‎346‎00:2‎7:52,‎770 -‎-> 00‎:27:5‎6,000‎我要偷《‎独立宣言》‎347‎00:2‎8:00,‎110 -‎-> 00‎:28:0‎2,910‎呃…本？‎348‎00:2‎8:03,‎820 -‎-> 00‎:28:0‎6,250‎这可是…‎大事3‎4900‎:28:0‎6,850‎--> ‎00:28‎:09,4‎50能进‎监狱的大事‎350‎00:2‎8:09,‎520 -‎-> 00‎:28:1‎1,920‎你会进监‎狱的，知道‎吗？3‎5100‎:28:1‎1,990‎--> ‎00:28‎:14,3‎90嗯，‎可能吧‎3520‎0:28:‎14,46‎0 -->‎00:2‎8:16,‎990对‎大多数人这‎可是个大问‎题35‎300:‎28:17‎,660 ‎--> 0‎0:28:‎22,40‎0伊恩会‎试著偷它的‎如果他成‎功的话，他‎会毁掉《独‎立宣言》的‎354‎00:2‎8:22,‎500 -‎-> 00‎:28:2‎5,870‎事实上，‎保护《独立‎宣言》的‎唯一方案就‎是偷到它‎355‎00:28‎:25,9‎40 --‎> 00:‎28:28‎,500‎反过来也一‎样35‎600:‎28:29‎,880 ‎--> 0‎0:28:‎32,31‎0我们别‎无选择了‎357‎00:28‎:33,0‎50 --‎> 00:‎28:35‎,540‎本，看在上‎帝的份上‎358‎00:28‎:35,6‎20 --‎> 00:‎28:39‎,250‎这就好像偷‎国家纪念碑‎一样，好吗‎？35‎900:‎28:39‎,320 ‎--> 0‎0:28:‎41,51‎0就好像‎偷他一样‎360‎00:28‎:41,5‎90 --‎> 00:‎28:46‎,320‎这是办不到‎的不是应‎不应该的问‎题，是办不‎到36‎100:‎28:47‎,700 ‎--> 0‎0:28:‎50,10‎0我来证‎明给你看‎‎00:28‎:50,2‎00 --‎> 00:‎28:52‎,890‎本，注意看‎363‎00:2‎8:52,‎970 -‎-> 00‎:28:5‎5,870‎我带你来‎到议会图书‎馆36‎400:‎28:55‎,970 ‎--> 0‎0:28:‎59,50‎0为什么‎？因为这是‎世界上最大‎的图书馆‎365‎00:28‎:59,6‎10 --‎> 00:‎29:01‎,740‎这里有超过‎两千万本藏‎书36‎600:‎29:01‎,840 ‎--> 0‎0:29:‎04,31‎0他们都‎在说一个声‎音…3‎6700‎:29:0‎4,380‎--> ‎00:29‎:06,7‎50听瑞‎利的3‎6800‎:29:0‎6,820‎--> ‎00:29‎:11,5‎80我们‎面前的是国‎家档案馆的‎全部资料‎我的朋友‎369‎00:29‎:11,6‎60 --‎> 00:‎29:14‎,150‎除了建筑蓝‎图37‎000:‎29:14‎,220 ‎--> 0‎0:29:‎18,25‎0你可以‎找到建造令‎，电话线的‎布置3‎7100‎:29:1‎9,130‎--> ‎00:29‎:22,0‎00地下‎水管的走线‎，都在这里‎372‎00:2‎9:22,‎070 -‎-> 00‎:29:2‎5,160‎当《独立‎宣言》被展‎出时00‎:29:2‎5,240‎--> ‎00:29‎:28,8‎30它被‎警卫和各种‎摄像头重重‎包围3‎7400‎:29:2‎8,940‎--> ‎00:29‎:32,8‎80来看‎它的有从爱‎荷华州来的‎家庭还有‎参加考察旅‎行的小孩‎375‎00:29‎:32,9‎80 --‎> 00:‎29:37‎,750‎在一英寸厚‎的防弹玻璃‎下面有一‎大堆的传感‎器和热监控‎器37‎600:‎29:37‎,820 ‎--> 0‎0:29:‎41,12‎0如果有‎发烧的人靠‎太近都会‎响警报‎3770‎0:29:‎41,99‎0 -->‎00:2‎9:44,‎610而‎当它不在展‎出的时候‎378‎00:29‎:45,5‎20 --‎> 00:‎29:52‎,730‎它会被传送‎下去，储存‎在一个…‎379‎00:29‎:53,4‎30 --‎> 00:‎29:57‎,870‎装有电子密‎码锁和指纹‎锁38‎000:‎29:57‎,940 ‎--> 0‎0:30:‎00,00‎0四尺厚‎的钢板里‎381‎00:30‎:00,0‎70 --‎> 00:‎30:03‎,800‎你知道吗‎汤姆·爱迪‎生失败了差‎不多两千次‎382‎00:3‎0:03,‎910 -‎-> 00‎:30:0‎7,850‎才发明出‎适合白炽灯‎泡使用的碳‎化棉丝灯丝‎383‎爱迪生？‎384‎00:3‎0:09,‎420 -‎-> 00‎:30:1‎1,510‎当别人问‎起的时候，‎他说，我没‎有失败‎3850‎0:30:‎11,59‎0 -->‎00:3‎0:14,‎380我‎只是找到了‎两千种造不‎出灯泡的方‎法38‎600:‎30:14‎,460 ‎--> 0‎0:30:‎17,86‎0只是得‎找到一种方‎法让它成功‎387‎00:3‎0:19,‎990 -‎-> 00‎:30:2‎3,160‎储藏室，‎好好看著吧‎388‎00:3‎0:25,‎100 -‎-> 00‎:30:2‎7,900‎你知道储‎藏室是干什‎么用的吗？‎389‎00:3‎0:27,‎970 -‎-> 00‎:30:3‎0,490‎保存好吃‎的果酱和果‎冻的？‎3900‎0:30:‎30,57‎0 -->‎00:3‎0:33,‎230不‎，当文件或‎文物不展出‎时候…‎3910‎0:30:‎33,31‎0 -->‎00:3‎0:35,‎140那‎里就用来清‎理、修复和‎保养…‎3920‎0:30:‎35,24‎0 -->‎00:3‎0:37,‎470…‎各种未展出‎的文件和文‎物39‎300:‎30:37‎,580 ‎--> 0‎0:30:‎41,85‎0如果情‎况要他‎们会从钢板‎里取出来，‎直接穿过大‎厅39‎4进入储‎藏室3‎9500‎:30:4‎3,820‎--> ‎00:30‎:47,7‎60 我们‎或者伊恩动‎手的最好机‎会就是这‎个周末的庆‎祝活动‎3960‎0:30:‎47,82‎0 -->‎00:3‎0:50,‎950 那‎时警卫们的‎注意力会‎被楼上的贵‎宾们分散‎397‎00:30‎:51,0‎30 --‎> 00:‎30:57‎,130 ‎而那时我们‎就乘虚而入‎进到保藏‎室去3‎9800‎:30:5‎8,130‎--> ‎00:30‎:59,8‎60 呃‎399‎00:30‎:59,9‎70 --‎> 00:‎31:02‎,340 ‎那，如果伊‎恩…4‎0000‎:31:0‎2,370‎--> ‎00:31‎:04,3‎60 呃…‎401‎00:3‎1:04,‎440 -‎-> 00‎:31:0‎7,070‎储藏…唔‎402‎00:3‎1:07,‎140 -‎-> 00‎:31:0‎9,170‎庆祝活动‎？40‎300:‎31:11‎,250 ‎--> 0‎0:31:‎13,61‎0这可能‎行的通‎4040‎0:31:‎14,32‎0 -->‎00:3‎1:16,‎150 或‎许吧4‎0500‎:31:4‎8,290‎--> ‎00:31‎:49,5‎20 啊…‎406‎00:3‎1:49,‎990 -‎-> 00‎:31:5‎2,360‎好啦，我‎们进去了‎407‎00:32‎:04,1‎70 --‎> 00:‎32:06‎,970 ‎找到了，你‎好啊4‎0800‎:32:1‎1,050‎--> ‎00:32‎:13,0‎40 走廊‎409‎00:3‎2:19,‎350 -‎-> 00‎:32:2‎0,980‎这就是我‎要找的‎4100‎0:32:‎34,70‎0 -->‎00:3‎2:36,‎690 游‎戏开始‎4110‎0:33:‎10,98‎0 -->‎00:3‎3:12,‎370 还‎不错4‎1200‎:33:1‎7,620‎--> ‎00:33‎:19,1‎10 绘‎413‎00:33‎:51,0‎20 --‎> 00:‎33:53‎,320 ‎这是送给你‎的41‎400:‎33:53‎,960 ‎--> 0‎0:33:‎56,45‎0希望不‎是斯坦送来‎的41‎500:‎33:58‎,590 ‎--> 0‎0:34:‎03,05‎0送给拥‎有其馀一切‎的女士…‎谢谢接见我‎们，保罗·‎布朗4‎1600‎:34:4‎7,880‎--> ‎00:34‎:49,5‎10艾比‎嘉尔·切斯‎417‎00:3‎5:05,‎560 -‎-> 00‎:35:0‎6,590‎嗨，迈克‎418‎00:3‎5:10,‎870 -‎-> 00‎:35:1‎3,570‎我们从名‎册开始…‎419‎00:35‎:13,6‎40 --‎> 00:‎35:16‎,010‎走廊一切正‎常42‎000:‎35:16‎,810 ‎--> 0‎0:35:‎17,80‎0你们拿‎的是什么？‎421‎00:3‎5:17,‎880 -‎-> 00‎:35:1‎9,850‎《独立宣‎言》框里的‎一个热能传‎感器已经坏‎了42‎200:‎35:19‎,910 ‎--> 0‎0:35:‎23,51‎0我要重‎新检查替换‎423‎00:3‎5:23,‎580 -‎-> 00‎:35:2‎6,280‎我们的计‎划成功了‎424‎00:36‎:05,9‎30 --‎> 00:‎36:07‎,950‎本，你肯定‎我们应该…‎425‎00:3‎6:11,‎470 -‎-> 00‎:36:1‎2,800‎瑞利？‎426‎00:36‎:13,3‎70 --‎> 00:‎36:15‎,740‎能听到我吗‎？很不幸‎，能听见。

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The use or implementation of the contents of this Document may31involve or require the use of intellectual property rights ("IPR") including (but not limited to) patents,32patent applications, or copyrights owned by one or more parties, whether or not Members of MIPI. MIPI33does not make any search or investigation for IPR, nor does MIPI require or request the disclosure of any 34IPR or claims of IPR as respects the contents of this Document or otherwise.35Questions pertaining to this document, or the terms or conditions of its provision, should be addressed to: 36MIPI Alliance, Inc.c/o IEEE-ISTO3738445 Hoes Lane39Piscataway, NJ 08854Attn: Board Secretary4041Contents42Draft Version 1.02.00 Revision 0.07 – 30 March 2010 (i)431 Overview (10)44451.1 Scope (10)1.2 Purpose (10)462 Terminology (informative) (11)47482.1 Definitions (11)2.2 Abbreviations (12)492.3 Acronyms (12)50513 References (informative) (15)3.1 Display Bus Interface Standard for Parallel Signaling (DBI-2) (15)52533.2 Display Pixel Interface Standard for Parallel Signaling (DPI-2) (16)3.3 MIPI Alliance Specification for Display Command Set (DCS) (16)543.4 MIPI Alliance Standard for Camera Serial Interface 2 (CSI-2) (16)55563.5 MIPI Alliance Specification for D-PHY (D-PHY) (16)4 DSI Introduction (17)574.1 DSI Layer Definitions (18)58594.2 Command and Video Modes (19)4.2.1 Command Mode (19)604.2.2 Video Mode Operation (19)61624.2.3 Virtual Channel Capability (20)5 DSI Physical Layer (21)635.1 Data Flow Control (21)645.2 Bidirectionality and Low Power Signaling Policy (21)65665.3 Command Mode Interfaces (22)5.4 Video Mode Interfaces (22)67685.5 Bidirectional Control Mechanism (22)5.6 Clock Management (23)695.6.1 Clock Requirements (23)70715.6.2 Clock Power and Timing (24)5.7 System Power-Up and Initialization (24)726 Multi-Lane Distribution and Merging (26)73746.1 Multi-Lane Interoperability and Lane-number Mismatch (27)6.1.1 Clock Considerations with Multi-Lane (28)756.1.2 Bidirectionality and Multi-Lane Capability (28)76776.1.3 SoT and EoT in Multi-Lane Configurations (28)7 Low-Level Protocol Errors and Contention (31)787.1 Low-Level Protocol Errors (31)79807.1.1 SoT Error (31)7.1.2 SoT Sync Error (32)81827.1.3 EoT Sync Error (32)837.1.4 Escape Mode Entry Command Error (33)7.1.5 LP Transmission Sync Error (33)847.1.6 False Control Error (33)85867.2 Contention Detection and Recovery (34)7.2.1 Contention Detection in LP Mode (34)877.2.2 Contention Recovery Using Timers (34)88897.3 Additional Timers (37)7.3.1 Turnaround Acknowledge Timeout (TA_TO) (37)90917.3.2 Peripheral Reset Timeout (PR_TO) (37)7.4 Acknowledge and Error Reporting Mechanism (38)928 DSI Protocol (39)93948.1 Multiple Packets per Transmission (39)8.2 Packet Composition (40)958.3 Endian Policy (41)96978.4 General Packet Structure (41)8.4.1 Long Packet Format (41)988.4.2 Short Packet Format (43)991008.5 Common Packet Elements (43)8.5.1 Data Identifier Byte (43)1018.5.2 Error Correction Code (44)1021038.6 Interleaved Data Streams (45)8.6.1 Interleaved Data Streams and Bidirectionality (45)1048.7 Processor to Peripheral Direction (Processor-Sourced) Packet Data Types (46)1051068.8 Processor-to-Peripheral Transactions – Detailed Format Description (47)8.8.1 Sync Event (H Start, H End, V Start, V End), Data Type = XX 0001 (0xX1) (47)1078.8.2 EoTp, Data Type = 00 1000 (0x08) (47)1081098.8.3 Color Mode Off Command, Data Type = 00 0010 (0x02) (48)8.8.4 Color Mode On Command, Data Type = 01 0010 (0x12) (48)1101118.8.5 Shutdown Peripheral Command, Data Type = 10 0010 (0x22) (49)8.8.6 Turn On Peripheral Command, Data Type = 11 0010 (0x32) (49)1128.8.7 Generic Short WRITE Packet with 0, 1, or 2 parameters, Data Types = 00 0011 (0x03), 01 1131140011 (0x13), 10 0011 (0x23), Respectively (49)8.8.8 Generic READ Request with 0, 1, or 2 Parameters, Data Types = 00 0100 (0x04), 01 0100 115116(0x14), 10 0100(0x24), Respectively (49)1178.8.9 DCS Commands (50)8.8.10 Set Maximum Return Packet Size, Data Type = 11 0111 (0x37) (51)1181198.8.11 Null Packet (Long), Data Type = 00 1001 (0x09) (51)1208.8.12 Blanking Packet (Long), Data Type = 01 1001 (0x19) (51)8.8.13 Generic Long Write, Data Type = 10 1001 (0x29) (51)1218.8.14 Loosely Packed Pixel Stream, 20-bit YCbCr 4:2:2 Format, Data Type = 00 1100 (0x0C) (51)1221238.8.15 Packed Pixel Stream, 24-bit YCbCr 4:2:2 Format, Data Type = 01 1100 (0x1C) (53)8.8.16 Packed Pixel Stream, 16-bit YCbCr 4:2:2 Format, Data Type = 10 1100 (0x2C) (54)1248.8.17 Packed Pixel Stream, 30-bit Format, Long Packet, Data Type = 00 1101 (0x0D) (54)1251268.8.18 Packed Pixel Stream, 36-bit Format, Long Packet, Data Type = 01 1101 (0x1D) (55)8.8.19 Packed Pixel Stream, 12-bit YCbCr 4:2:0 Format, Data Type = 11 1101 (0x3D) (56)1271288.8.20 Packed Pixel Stream, 16-bit Format, Long Packet, Data Type 00 1110 (0x0E) (57)8.8.21 Packed Pixel Stream, 18-bit Format, Long Packet, Data Type = 01 1110 (0x1E) (58)1298.8.22 Pixel Stream, 18-bit Format in Three Bytes, Long Packet, Data Type = 10 1110 (0x2E) (60)1301318.8.23 Packed Pixel Stream, 24-bit Format, Long Packet, Data Type = 11 1110 (0x3E) (61)8.8.24 DO NOT USE and Reserved Data Types (62)1328.9 Peripheral-to-Processor (Reverse Direction) LP Transmissions (62)1331348.9.1 Packet Structure for Peripheral-to-Processor LP Transmissions (62)8.9.2 System Requirements for ECC and Checksum and Packet Format (63)1358.9.3 Appropriate Responses to Commands and ACK Requests (63)1361378.9.4 Format of Acknowledge and Error Report and Read Response Data Types (65)8.9.5 Error Reporting Format (65)1388.10 Peripheral-to-Processor Transactions – Detailed Format Description (67)1391408.10.1 Acknowledge and Error Report, Data Type 00 0010 (0x02) (68)8.10.2 Generic Short Read Response, 1 or 2 Bytes, Data Types = 01 0001 or 01 0010, Respectively 141142681438.10.3 Generic Long Read Response with Optional Checksum, Data Type = 01 1010 (0x1A) (68)8.10.4 DCS Long Read Response with Optional Checksum, Data Type 01 1100 (0x1C) (69)1448.10.5 DCS Short Read Response, 1 or 2 Bytes, Data Types = 10 0001 or 10 0010, Respectively . 69 1451468.10.6 Multiple Transmissions and Error Reporting (69)8.10.7 Clearing Error Bits (69)1478.11 Video Mode Interface Timing (69)1481498.11.1 Transmission Packet Sequences (70)8.11.2 Non-Burst Mode with Sync Pulses (71)1501518.11.3 Non-Burst Mode with Sync Events (72)8.11.4 Burst Mode (73)1528.11.5 Parameters (74)1538.12 TE Signaling in DSI (75)1541559 Error-Correcting Code (ECC) and Checksum (77)9.1 Packet Header Error Detection/Correction (77)1561579.2 Hamming Code Theory (77)1589.3 Hamming-modified Code Applied to DSI Packet Headers (78)9.4 ECC Generation on the Transmitter (81)1599.5 Applying ECC on the Receiver (82)1601619.6 Checksum Generation for Long Packet Payloads (82)10 Compliance, Interoperability, and Optional Capabilities (84)16210.1 Display Resolutions (84)16316410.2 Pixel Formats (85)10.2.1 Video Mode (85)16516610.2.2 Command Mode (85)10.3 Number of Lanes (85)16710.4 Maximum Lane Frequency (85)16816910.5 Bidirectional Communication (86)10.6 ECC and Checksum Capabilities (86)17010.7 Display Architecture (86)17117210.8 Multiple Peripheral Support (86)10.9 EoTp Support and Interoperability (86)173Annex A Contention Detection and Recovery Mechanisms (informative) (87)174175A.1 PHY Detected Contention (87)A.1.1 Protocol Response to PHY Detected Faults (87)176Annex B Checksum Generation Example (informative) (93)177178Annex C Interlaced Video Transmission Sourcing (95)179180Figures181Figure 1 DSI Transmitter and Receiver Interface (17)182Figure 2 DSI Layers (18)183184Figure 3 Basic HS Transmission Structure (21)Figure 4 Peripheral Power-Up Sequencing Example (25)185Figure 5 Lane Distributor Conceptual Overview (26)186187Figure 6 Lane Merger Conceptual Overview (27)Figure 7 Four-Lane Transmitter with Two-Lane Receiver Example (28)188Figure 8 Two Lane HS Transmission Example (29)189190Figure 9 Three Lane HS Transmission Example (30)Figure 10 HS Transmission Examples with EoTp disabled (40)191192Figure 11 HS Transmission Examples with EoTp enabled (40)Figure 12 Endian Example (Long Packet) (41)193Figure 13 Long Packet Structure (42)194195Figure 14 Short Packet Structure (43)Figure 15 Data Identifier Byte (44)196Figure 16 Interleaved Data Stream Example with EoTp disabled (45)197198Figure 17 Logical Channel Block Diagram (Receiver Case) (45)Figure 18 20-bit per Pixel – YCbCr 4:2:2 Format, Long Packet (52)199Figure 19 24-bit per Pixel – YCbCr 4:2:2 Format, Long Packet (53)200201Figure 20 16-bit per Pixel – YCbCr 4:2:2 Format, Long Packet (54)Figure 21 30-bit per Pixel (Packed) – RGB Color Format, Long Packet (55)202Figure 22 36-bit per Pixel (Packed) – RGB Color Format, Long Packet (56)203Figure 23 12-bit per Pixel – YCbCr 4:2:0 Format (Odd Line), Long Packet (57)204205Figure 24 12-bit per Pixel – YCbCr 4:2:0 Format (Even Line), Long Packet (57)Figure 25 16-bit per Pixel – RGB Color Format, Long Packet (58)206207Figure 26 18-bit per Pixel (Packed) – RGB Color Format, Long Packet (59)Figure 27 18-bit per Pixel (Loosely Packed) – RGB Color Format, Long Packet (60)208Figure 28 24-bit per Pixel – RGB Color Format, Long Packet (61)209210Figure 29 Video Mode Interface Timing Legend (71)Figure 30 Video Mode Interface Timing: Non-Burst Transmission with Sync Start and End (72)211Figure 31 Video Mode Interface Timing: Non-burst Transmission with Sync Events (73)212213Figure 32 Video Mode Interface Timing: Burst Transmission (74)Figure 33 24-bit ECC generation on TX side (81)214Figure 34 24-bit ECC on RX Side Including Error Correction (82)215216Figure 35 Checksum Transmission (83)Version 1.02.00 r0.07 30-Mar-2010 DRAFTMIPI Alliance Specification for DSI Figure 36 16-bit CRC Generation Using a Shift Register (83)217Figure 37 LP High ÅÆ LP Low Contention Case 1 (89)218219Figure 38 LP High ÅÆ LP Low Contention Case 2 (91)Figure 39 LP High ÅÆ LP Low Contention Case 3 (92)220221Figure 40 Video Mode Interface Timing: Non-burst Transmission with Sync Start and End (Interlaced 222Video) (95)Figure 41 Video Mode Interface Timing: Non-burst Transmission with Sync Events (Interlaced Video) (96)223224225Tables226Table 1 Sequence of Events to Resolve SoT Error (HS RX Side) (32)227Table 2 Sequence of Events to Resolve SoT Sync Error (HS RX Side) (32)228229Table 3 Sequence of Events to Resolve EoT Sync Error (HS RX Side) (33)Table 4 Sequence of Events to Resolve Escape Mode Entry Command Error (RX Side) (33)230Table 5 Sequence of Events to Resolve LP Transmission Sync Error (RX Side) (33)231232Table 6 Sequence of Events to Resolve False Control Error (RX Side) (34)Table 7 Low-Level Protocol Error Detection and Reporting (34)233Table 8 Required Timers and Timeout Summary (35)234235Table 9 Sequence of Events for HS RX Timeout (Peripheral initially HS RX) (35)Table 10 Sequence of Events for HS TX Timeout (Host Processor initially HS TX) (36)236237Table 11 Sequence of Events for LP TX-Peripheral Timeout (Peripheral initially LP TX) (36)Table 12 Sequence of Events for Host Processor Wait Timeout (Peripheral initially TX) (36)238Table 13 Sequence of Events for BTA Acknowledge Timeout (Peripheral initially TX) (37)239240Table 14 Sequence of Events for BTA Acknowledge Timeout (Host Processor initially TX) (37)Table 15 Sequence of Events for Peripheral Reset Timeout (37)241Table 16 Data Types for Processor-sourced Packets (46)242243Table 17 EoT Support for Host and Peripheral (48)Table 18 Error Report Bit Definitions (66)244Table 19 Data Types for Peripheral-sourced Packets (67)245246Table 20 Required Peripheral Timing Parameters (74)Table 21 ECC Syndrome Association Matrix (78)247Table 22 ECC Parity Generation Rules (79)248Table 23 Display Resolutions (84)249250Table 24 LP High ÅÆ LP Low Contention Case 1 (87)Table 25 LP High ÅÆ LP Low Contention Case 2 (90)251252Table 26 LP High ÅÆ LP Low Contention Case 3 (92)253Copyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.MIPI Alliance Member Confidential.DRAFT MIPI Alliance Specification for 254Display Serial Interface255 1 Overview 256The Display Serial Interface Specification defines protocols between a host processor and peripheral 257devices that adhere to MIPI Alliance specifications for mobile device interfaces. The DSI specification 258builds on existing specifications by adopting pixel formats and command set defined in [MIPI02], 259[MIPI03], and [MIPI01]. 2601.1 Scope 261Interface protocols as well as a description of signal timing relationships are within the scope of this 262document. 263Electrical specifications and physical specifications are out of scope for this document. In addition, legacy 264interfaces such as DPI-2 and DBI-2 are also out of scope for this document. Furthermore, device usage of 265auxiliary buses such as I 2C or SPI, while not precluded by this specification, are also not within its scope. 2661.2 Purpose 267The Display Serial Interface specification defines a high-speed serial interface between a peripheral, such 268as an active-matrix display module, and a host processor in a mobile device. By standardizing this 269interface, components may be developed that provide higher performance, lower power, less EMI and 270fewer pins than current devices, while maintaining compatibility across products from multiple vendors.2712722 Terminology (informative)273274The MIPI Alliance has adopted Section 13.1 of the IEEE Standards Style Manual, which dictates use of the 275words “shall”, “should”, “may”, and “can” in the development of documentation, as follows:276The word shall is used to indicate mandatory requirements strictly to be followed in order277to conform to the standard and from which no deviation is permitted (shall equals is278required to).279The use of the word must is deprecated and shall not be used when stating mandatory280requirements; must is used only to describe unavoidable situations.281The use of the word will is deprecated and shall not be used when stating mandatory282requirements; will is only used in statements of fact.283The word should is used to indicate that among several possibilities one is recommended284as particularly suitable, without mentioning or excluding others; or that a certain course285of action is preferred but not necessarily required; or that (in the negative form) a certain286course of action is deprecated but not prohibited (should equals is recommended that).287The word may is used to indicate a course of action permissible within the limits of the288standard (may equals is permitted).289The word can is used for statements of possibility and capability, whether material,290physical, or causal (can equals is able to).All sections are normative, unless they are explicitly indicated to be informative.291292Numbers are decimal unless otherwise indicated. Hexadecimal numbers have a “0x” prefix. Binary 293numbers are prefixed by “0b”.2.1 Definitions294295Forward Direction: The signal direction is defined relative to the direction of the high-speed serial clock. 296Transmission from the side sending the clock to the side receiving the clock is the forward direction.297Half duplex: Bidirectional data transmission over a Lane allowing both transmission and reception but 298only in one direction at a time.299HS Transmission: Sending one or more packets in the forward direction in HS Mode. A HS Transmission is delimited before and after packet transmission by LP-11 states.300301Host Processor: Hardware and software that provides the core functionality of a mobile device.302Lane: Consists of two complementary Lane Modules communicating via two-line, point-to-point Lane 303Interconnects. A Lane can be used for either Data or Clock signal transmission.304Lane Interconnect: Two-line, point-to-point interconnect used for both differential high-speed signaling 305and low-power, single-ended signaling.Lane Module: Module at each side of the Lane for driving and/or receiving signals on the Lane.306Copyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.Link: A connection between two devices containing one Clock Lane and at least one Data Lane. A Link 307308consists of two PHYs and two Lane Interconnects.309LP Transmission: Sending one or more packets in either direction in LP Mode or Escape Mode. A LP 310Transmission is delimited before and after packet transmission by LP-11 states.311Packet: A group of four or more bytes organized in a specified way to transfer data across the interface. All 312packets have a minimum specified set of components. The byte is the fundamental unit of data from which 313packets are made.314Payload: Application data only – with all Link synchronization, header, ECC and checksum and other 315protocol-related information removed. This is the “core” of transmissions between host processor and 316peripheral.317PHY: The set of Lane Modules on one side of a Link.318PHY Configuration: A set of Lanes that represent a possible Link. A PHY configuration consists of a 319minimum of two Lanes: one Clock Lane and one or more Data Lanes.320Reverse Direction: Reverse direction is the opposite of the forward direction. See the description for 321Forward Direction.322Transmission: Refers to either HS or LP Transmission. See the HS Transmission and LP Transmission 323definitions for descriptions of the different transmission modes.324Virtual Channel: Multiple independent data streams for up to four peripherals are supported by this 325specification. The data stream for each peripheral is a Virtual Channel. These data streams may be 326interleaved and sent as sequential packets, with each packet dedicated to a particular peripheral or channel. 327Packet protocol includes information that directs each packet to its intended peripheral.328Word Count: Number of bytes within the payload.2.2 Abbreviations329330e.g. Forexample2.3 Acronyms331332ProtocolAIP ApplicationIndependent333AM Active matrix (display technology)ASP Application Specific Protocol334335BLLP Blanking or Low Power interval336PixelBPP Bitsper337BTA BusTurn-Around338InterfaceSerialCSI Camera339DBI Display Bus InterfaceCopyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.DI Data340Identifier341DMA Direct Memory AccessDPI Display Pixel Interface342343DSI Display Serial InterfaceDT Data344Type345ECC Error-CorrectingCode346EMI Electro Magnetic interference347EoTp End of Transmission Packet348DischargeESD Electrostatic349Fps Frames per second350HBP Horizontal Back PorchHFP Horizontal Front Porch351352SpeedHS High353HSA Horizontal Sync Active354HSE Horizontal Sync End355HSS Horizontal Sync Start356ISTO Industry Standards and Technology Organization357PowerLP Low358LPS Low Power State (state of serial data line when not transferring high-speed serial data) LSB Least Significant Bit359second360perMbps Megabits361MIPI Mobile Industry Processor InterfaceMSB Most Significant Bit362363PF PacketFooterHeader364PH PacketLayer365PHY Physical366InterfacePPI PHY-ProtocolCopyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.367QCIF Quarter-size CIF (resolution 176x144 pixels or 144x176 pixels)368QVGA Quarter-size Video Graphics Array (resolution 320x240 pixels or 240x320 pixels) 369RGB Color presentation (Red, Green, Blue)370SLVS Scalable Low Voltage Signaling371SoT Start of Transmission372SVGA Super Video Graphics Array (resolution 800x600 pixels or 600x800 pixels)373StateULPS Ultra-lowPower374VGA Video Graphics Array (resolution 640x480 pixels or 480x640 pixels)375ActiveVSA VerticalSync376EndSyncVSE Vertical377StartSyncVSS VerticalCount378WC Word379WVGA Wide VGA (resolution 800x480 pixels or 480x800 pixels)380Copyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.3 References (informative)381382[MIPI01] MIPI Alliance Specification for Display Command Set, version 1.02.00, MIPI Alliance, 383In Press384[MIPI02] MIPI Alliance Standard for Display Bus Interface (DBI-2), version 2.00, MIPI Alliance, 38529 November 2005386[MIPI03] MIPI Alliance Standard for Display Pixel Interface (DPI-2), version 2.00, MIPI Alliance, 38715 September 2005388[MIPI04] MIPI Alliance Specification for D-PHY, version 0.90.00, MIPI Alliance, 8 October 2007 389A DTV Profile for Uncompressed High Speed Digital Interfaces,[CEA01] CEA-861-E,</Standards/browseByCommittee_2641.asp>, Consumer Electronics 390Association, March 2008391Studio encoding parameters of digital television for standard 4:3 and wide 392[ITU01] BT.601-6,393screen 16:9 aspect ratios, <http://www.itu.int/rec/R-REC-BT.601-6-200701-I/en>,394International Telecommunications Union, 23 February 2007395[ITU02] BT.709-5,Parameter values for the HDTV standards for production and international 396programme exchange, <http://www.itu.int/rec/R-REC-BT.709-5-200204-I/en>,397International Telecommunications Union, 27 August 2009398Interface for digital component video signals in 525-line and 625-line [ITU03] BT.656-5,399television systems operating at the 4:2:2 level of Recommendation ITU-R BT.601,400<http://www.itu.int/rec/R-REC-BT.656-5-200712-I/en>, International401Telecommunications Union, 1 January 2008402Transformations Between Television Component Color Signals, Society for36-2000,[SMPT01] EG403Motion Picture and Television Engineers, 23 March 2000404Much of DSI is based on existing MIPI Alliance specifications as well as several MIPI Alliance 405specifications in simultaneous development. In the Application Layer, DSI duplicates pixel formats used in 406[MIPI03] when it is in Video Mode operation. For display modules with a display controller and frame 407buffer, DSI shares a common command set with [MIPI02]. The command set is documented in [MIPI01].3.1 Display Bus Interface Standard for Parallel Signaling (DBI-2)408409DBI-2 is a MIPI Alliance standard for parallel interfaces to display modules having display controllers and 410frame buffers. For systems based on these standards, the host processor loads images to the on-panel frame 411buffer through the display processor. Once loaded, the display controller manages all display refresh 412functions on the display module without further intervention from the host processor. Image updates 413require the host processor to write new data into the frame buffer.414DBI-2 specifies a parallel interface where data can be sent to the peripheral over an 8-, 9- or 16-bit-wide 415data bus, with additional control signals. DBI-2 supports a 1-bit data bus interface mode as well.416The DSI specification supports a Command Mode of operation. Like the parallel DBI, a DSI-compliant 417interface sends commands and parameters to the display. However, all information in DSI is first serializedCopyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.。