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AN-DISPATCH-010 Rev B11 FEB 2011MotorolaXTL-5000 Radios to 223 Series Adapter PanelsTable of Contents1.0 General (3)2.0 Interconnect Cable Assembly (3)3.0 223 Series Panels (4)3.1 TRA-223 Setup (4)3.1.1 TRA-223 Dip Switch Settings (4)3.2 DSP-223 Setup (5)3.2.1 DSP-223 Jumper Settings (5)3.3 IP-223 Setup (5)3.3.1 IP-223 Jumper Settings (5)2AN-DISPATCH-010AN-DISPATCH-010 31.0GeneralThis application note is intended to assist technical staff with cable assembly and hardware setup of different Telex 223 series adapters (TRA-223, DSP-223 and IP-223) to a Motorola**1 XTL-5000 series mobile radio.2.0Interconnect Cable AssemblyA cable assembly is required to connect to the 26-pin accessory connector of the XTL to the various 223 series adaptor e Table 1 to build the specified cable assembly.1.See “Copyright Notice” on page 7.TABLE 1. Cable Assembly PinoutsTRA-223DB-25 Pin DSP-223DB-25 Pin IP-223DB-25 Pin XTL 26-PinSignal25252523MIC +24242421RX +14141416PTT 77714 & 15GNDMotorolaXTL-5000 Radios to 223 Series Adapter PanelsMotorola XTL-5000 Radios to 223 Series Adapter Panels4 AN-DISPATCH-0103.0223 Series Panels3.1TRA-223 Setup 3.1.1TRA-223 Dip Switch SettingsTo set front panel dip switches , do the following:1. Set to on :•position 4•position 6•position 72. Select 2- or 4-wire operation using:•position 1•position 2•position 3REFERENCE:For more information, see the TRA-223 Technical ManualP/N 803570, Line Connection section. This document is available for download at /.FIGURE 1.XLT Cable Assembly DiagramMotorola XTL-5000 Radios to 223 Series Adapter PanelsAN-DISPATCH-010 53.2DSP-223 SetupNo DSP-223 software programming is required. 3.2.1DSP-223 Jumper SettingsTo set the DSP223 Jumpers, do the following:1. Set to the A position :•J14, J15, J22, J23, J24, J25, J27.2. Set to the B position:•J12 and J13 3. Solder close JP2.To set the operating mode , do the following > Select 2- or 4- wire operation:•J19, J20 and J21.REFERENCE:For more information, see the DSP-223 Technical Manual (P/N 803274), DSP to Console Line Connection section. Thisdocument is available for download at /.3.3IP-223 SetupSetup the desired IP-223 line’s jumpers for Local radio control.3.3.1IP-223 Jumper SettingsTABLE 2. Jumper SettingsLine 1Jumper SettingsLine 2J33, J34 B = 4-WireJ5, J6J16, J21 A = Singled EndedJ19, J20J14Hanging on center pin = 10K Ohm J24J3, J9, J11 A = Single Ended J25, J28, J29J13 B = HighJ27J17, J22 B = 600 OhmsJ10, J15R377Solder bridge the pads together R381Motorola XTL-5000 Radios to 223 Series Adapter Panels 6 AN-DISPATCH-010P ROPRIETARY N OTICEThe product information and design disclosed herein were originated by and are the property of Bosch Security Systems, Inc. Bosch reserves all patent, proprietary design, manufacturing, reproduction, use and sales rights thereto, and to any article disclosed therein, except to the extent rights are expressly granted to others.C OPYRIGHT N OTICECopyright 2011 by Bosch Security Systems, Inc. All rights reserved. Reproduction, in whole or in part, without prior written permission from Bosch is prohibited.*All other trademarks are property of their respective owners.**MOTOROLA and the Stylized M logo are registered in the U.S. Patent and Trademark Office.W ARRANTY AND S ERVICE I NFORMATIONFor warranty and service information, refer to / warranty.F ACTORY S ERVICE C ENTERFactory Service CenterBosch Security Systems, Inc.Radio Dispatch Products8601 East Cornhusker HighwayLincoln, Nebraska, 68507C ONTACT I NFORMATIONSales:Phone...............................................(800) 752-7560Fax ..................................................(402) 467-3279E-mail.......................**********************.com Customer Service:Repair...............................................(800) 553-5992 Technical Support:Phone ..............................................(800) 898-6723********************************************.comWeb C LAIMSNo liability will be accepted for damages directly or indirectly arising from the use of our materials or from any other causes. Our liability shall be expressly limited to replacement or repair of defective materials.AN-DISPATCH-010 7Revision HistoryDocument Title: Motorola XTL-5000 Radios to 223 Series Adapter PanelsDocument Number: AN-DISPATCH-010Revision Change Description DateA Update brand, format and new document number. (Reference rev B)01-OCT-2009B Update Telex website url. Table 2 correction to row 7 column 1.11-FEB-2011。

ARM Cortex™-M032-BIT MICROCONTROLLER NM1817 Series Product BriefNM1817 SERIES DATASHEET The information described in this document is the exclusive intellectual property ofNuvoton Technology Corporation and shall not be reproduced without permission from Nuvoton.Nuvoton is providing this document only for reference purposes of NuMicro TM microcontroller basedsystem design. Nuvoton assumes no responsibility for errors or omissions.All data and specifications are subject to change without notice.For additional information or questions, please contact: Nuvoton Technology Corporation.TABLE OF CONTENTS1GENERAL DESCRIPTION (3)2FEATURES (4)3PARTS INFORMATION LIST AND PIN CONFIGURATION (8)3.1Selection Guide (8)3.2Pin Configuration (8)3.2.1LQFP44-pin (8)3.3Pin Description (9)4BLOCK DIAGRAM (13)4.1NM1817 Block Diagram (13)5NM1817 ELECTRICAL CHARACTERISTICS (14)5.1NM1120 Absolute Maximum Ratings (14)5.2NM1120 DC Electrical Characteristics (15)5.3NM1120 AC Electrical Characteristics (20)5.3.1**External Input Clock (function has been reserved in NM1817) (20)5.3.2**External 4~24MHz High Speed Crystal (HXT)(function has been reserved in NM1817)215.3.3**Typical Crystal Application Circuits (function has been reserved in NM1817) (21)5.3.448MHz Internal High Speed RC Oscillator (HIRC) (21)5.3.510kHz Internal Low Speed RC Oscillator (LIRC) (21)5.4NM1120 Analog Characteristics (22)5.4.112-bit SAR ADC (22)5.4.2LDO & Power Management (23)5.4.3Brown-out Detector (23)5.4.4Power-on Reset (24)5.4.5Comparator (24)NM1817 SERIES DATASHEET5.4.6PGA (24)5.4.7Temperature Sensor (25)5.5NPT23011 Absolute Maximum Ratings (25)5.6NPT23011 Recommended Operating Conditions (26)5.7NPT23011 Static Electrical Characteristics (26)5.8NPT23011 Dynamic Electrical Characteristics (27)5.9DC Electrical Characteristic for LDO_5V_OUT (27)6PACKAGE DIMENSION (28)6.1LQFP 44-pin(10mm x 10mm) (28)7ORDERING INFORMATION (30)8REVISION HISTORY (31)1 GENERAL DESCRIPTIONThe NM1817 series 32-bit microcontroller(MCU) is embedded with ARM®Cortex™-M0 core andthree phase half-bridge power MOSFET and IGBT drivers with independent high and low sidereferenced output channels for motor driver applications which require high performance andintegration. The Cortex™-M0 is the ARM® embedded processor with 32-bit performance at a costequivalent to the traditional 8-bit microcontroller.The MCU of NM1817 series can run up to 48MHz and offers 29.5K-bytes embedded program flash,size configurable Data Flash (shared with program flash), 2K-byte flash for the ISP, 1.5K-byteSPROM for security, and 4K-byte SRAM. Plentiful system level peripheral functions, such as I/OPort, Timer, UART, SPI, I2C, PWM, ADC, Watchdog Timer, Analog Comparator and Brown-outDetector, have been incorporated into the NM1817 series in order to reduce component count,board space and system cost. These useful functions make the NM1817 series powerful for a widerange of motor driver applications.The floating channel can be used to drive an N-channel power MOSFET or IGBT in the high sideconfiguration which operates up to 600 volts. It’s also built-in the temperature sense output signalfor MCU detection & one comparator for over current protectionAdditionally, the NM1817 is equipped with ISP (In-System Programming) and ICP (In-CircuitProgramming) functions, which allow the user to update the program memory without removing thechip from the actual end product.NM1817 is the combination of NM1120 and NPT23011 Gate Driver. User may refer to the TRM ofNM1120 and the datasheet of NPT23011 for the detailed specification. The NM1120 BSP is alsofor NM1817 software developing.NM1120NPT23011NM1817NM1817 SERIES DATASHEETNM1817 SERIES DATASHEET2 FEATURES● Gate Driver⏹ Programmable enable/disable gate driver by MCU I/O of PC.4⏹ Floating channel designed for bootstrap operation up to + 600V⏹ Gate driver supply range from 12 to 18V⏹ VCC/VBS Under-voltage lock-out⏹ Cross conduction prevention⏹ High side output in phase with HIN● MCU Core⏹ ARM ® Cortex™-M0 core running up to 48MHz⏹ One 24-bit system timer⏹ Supports Low Power idle mode.⏹ A single-cycle 32-bit hardware multiplier⏹ NVIC for the 32 interrupt inputs, each with 4-level of priority⏹ Supports Serial Wire Debug (SWD) interface and two watch points/fourbreakpoints● Memory⏹ 29.5Kbytes Flash memory for program memory (APROM)⏹ Configurable Flash memory for data memory (Data Flash)⏹ 2KB Flash memory for loader (LDROM)⏹ Three 0.5KB Flash memory for security protection (SPROM)⏹ 4KB SRAM for internal scratch-pad RAM (SRAM)● Clock Control⏹ 48MHz internal oscillator (HIRC) (±1% accuracy at 250C, 5V)⏹ 10kHz internal low-power oscillator (LIRC) for Watchdog Timer and idle wake-up ● I/O Port⏹ Up to 15 general-purpose I/O (GPIO) pins⏹ Four I/O modes:◆ Quasi-bidirectional input/output◆ Push-Pull output◆ Open-Drain output◆ Input only with high impedance⏹ Optional TTL/Schmitt trigger input⏹ I/O pin can be configured as interrupt source with edge/level setting ⏹ Supports high driver and high sink I/O mode⏹ GPIO built-in Pull-up/Pull-low resistor for selection.● Timer⏹ Provides two channel 32-bit Timers; one 8-bit pre-scalar counter with 24-bit up-NM1817 SERIES DATASHEETtimer for each timer⏹ Independent clock source for each timer⏹ Provides One-shot, Periodic, Toggle and Continuous operation modes ⏹ 24-bit up counter value is readable through TDR (Timer Data Register) ⏹ Provides trigger counting/free counting/counter reset function triggered byexternal capture pin or internal comparator signal⏹ Supports event counter function⏹ Supports Toggle Output mode⏹ Supports wake-up from Idle or Power-down mode● Continuous Capture⏹ Timer0, Timer1 and Systick support Continuous Capture function which cancontinuously capture at most 4 edges on one signal● Enhanced Input Capture⏹ One unit of 24-bit input capture counter.⏹ Capture source:◆ I/O inputs: ECAP0, ECAP1 and ECAP2◆ ACMP Trigger◆ ADC Trigger● WDT (Watchdog Timer)⏹ Programmable clock source and time-out period⏹ Supports wake-up function in Power-down mode and Idle mode⏹ Interrupt or reset selectable on watchdog time-out● EPWM(Enhanced PWM Generator)⏹ Support a built-in 16-bit PWM clock generators, providing six PWM outputs orthree complementary paired PWM outputs⏹ Shared same clock source, clock divider, period and dead-zone generator ⏹ Supports group/independent/complementary modes⏹ Supports One-shot or Auto-reload mode⏹ Supports Edge-aligned and Center-aligned type⏹ Support Asymmetric mode⏹ Programmable dead-zone insertion between complementary channels ⏹ Each output has independent polarity setting control⏹ Hardware fault brake and software brake protections⏹ Supports rising, falling, central, period, and fault break interrupts⏹ Supports duty/period trigger A/D conversion⏹ Timer comparing matching event trigger PWM to do phase change⏹ Supports comparator event trigger PWM to force PWM output low for currentperiod⏹ Provides interrupt accumulation function⏹ Gate driver PWM output by MCU PWM controlif the ENGD pin of NM1817 is set to high level, then the output status ofNM1120 and gate driver is as the following table.MCU PWM Control Gate Driver PWM OutputPWM0/2/4 PWM1/3/5 UHO/VHO/WHO ULO/VLO/WLOH L ON OFFL H OFF ONL L OFF OFFH H OFF OFFOtherwise, if the ENGD pin of NM1817 is set to low level, then the output of gate driver is all off.●BPWM (Basic PWM Generator)⏹One 16-bit PWM generator which supports one 8-bit pre-scalar, one clock divider,two PWM timers (down counter) and one dead-zone generator⏹Two independent outputs or one complementary paired outputs.⏹PWM Interrupt request synchronized with PWM period⏹Edge-aligned type or Center-aligned type option●USCI (Universal Serial Control Interface Controller)⏹Two USCI devices⏹Supports to be configured as UART, SPI, I²C individually⏹Supports programmable baud-rate generator●ADC (Analog-to-Digital Converter)⏹12-bit ADC with 1M SPS⏹Supports 2 sample/holdNM1817 SERIES DATASHEET⏹Up to 8-ch single-end inputfrom I/O and one internal input from band-gap.⏹Conversion started either by software trigger, PWM trigger, ACMP trigger orexternal pin trigger⏹Supports temperature sensor for measureing chip temperature⏹Support Simultaneous and Sequential function to continuous conversion 4channels maximum.●Programmable Gain Amplifier (PGA)⏹Supports 8 level gain selects from 1, 2, 3, 5, 7, 9, 11 and 13.⏹Unity gain frequency up to 8MHz●Analog Comparator⏹Two analog comparators with programmable 16-level internal voltage reference⏹Build-in CRV (comparator reference voltage)⏹Supports Hysteresis function⏹Interrupt when compared results changed●Hardware Divider⏹Signed (two’s complement) integer calculation⏹32-bit dividend with 16-bit divisor calculation capacity⏹32-bit quotient and 32-bit remainder outputs (16-bit remainder with sign extendsto 32-bit)⏹Divided by zero warning flag⏹ 6 HCLK clocks taken for one cycle calculation⏹Waiting for calculation ready automatically when reading quotient and remainder●ISP (In-System Programming) and ICP (In-Circuit Programming)●BOD (Brown-out Detector)⏹8 programmable threshold levels:4.3V/4.0V/3.7V/3.0V/2.7V/2.4V/2.2V/2.0V⏹Supports Brown-out interrupt and reset option●96-bit unique ID●LVR (Low Voltage Reset)●Operating Temperature: -40℃~105℃●Packages:⏹44-pin LQFP (10x10mm)⏹Package is Halogen-free, RoHS-compliant and TSCA-compliant.NM1817 SERIES DATASHEETNM1817 SERIES DATASHEET3 PARTS INFORMATION LIST AND PIN CONFIGURATION3.1 Selection Guide P a r t N u m b e rF l a s h (K B ) S R A M (K B )I S PL o a d e r R O M(K B ) D a t a F l a s h I /O T im e r Connectivity I R C 48 M H z * B O D P W M An a l o g C o m p .P G A A D C (12-B it )Te m p er a t u r eS e n s orIC P /I S P I /A PPac k a geUSCI U A R T * I 2C S P I NM1817NT 29.5 4 2 √ 15 2 2 2 2 1 1 6 2 1 8x12bit 1 √ LQFP44Table 3.1-1 NM1817 Series Selection Guide3.2 Pin Configuration3.2.1 LQFP44-pin2401436587109114438373635342930272825262324121314151718192021162231323342433941NM1817LQFP 44-pin PB.1/ADC0_CH1/ACMP0_P1/ECAP_P1PB.2/ADC0_CH2/BPWM_CH1/ACMP0_P2/ECAP_P2PC.1/ADC0_CH4/STADC/ACMP0_P3/ACMP1_P1/SPI0_MOSI/SPI1_MISO /RESET PC.3/ACMP1_O/PGA_O/SPI0_CLK/SPI1_SS PD.1/ICE_CLK/ACMP1_P2/I2C0_SCL/SPI0_CLK/SPI1_SS/UART0_TXD PC.0/ADC0_CH3/BPWM_CH0/ACMP1_P0/I2C1_SCL/SPI0_SS/SPI1_CLK/UART1_TXDNCPD.5/UART0_TXDU_VS NC V_LOW_LOU_LO W_HOPC.2/ADC1_CH2/BRAKE/CCAP_P1/I2C1_SDA/SPI0_MISO/SPI1_MOSI/UART1_RXD W_VB NCNCCOMVCCNC PB.3/ACMP1_N/PGA_I/TM0U_VB PD.6/UART0_RXD VDD PB.0/ADC0_CH0/ACMP0_P0/ECAP_P0VSS ENGD V_HO NC V_VS NC NCLDO_CAP NC PB.4/ADC1_CH0/ACMP0_N/TM1U_HO PD.4/BPWM_CH0/UART1_RXD V_VB W_VSLDO_5V_OUT PD.2/ICE_DAT/ADC1_CH1/CCAP_P0/I2C0_SDA/SPI0_MOSI/SPI1_MISO/UART0_RXD PD.3/BPWM_CH1/UART1_TXDFigure 3.2-1 NM1817 LQFP 44-pin Diagram3.3 Pin DescriptionNM1120 NPT23011 NM1817NTPin Name Pin Type Description TSSOP28 SOP-20 LQFP 44-pin2 LDO_5V_OUT A 5V LDO output26 4 ENGD I Gate driver enable pin. The pin is also internally connected to PC.4 of NM1120.27 5 LDO_CAP P LDO output pin28 6 VSS P Ground pin for digital circuit 1 7 VDD P Power supply for digital circuit2 8 PD.6 I/O General purpose digital I/O pin UART0_RXD I Data receiver input pin for UART0.3 9 PB.0 I/O General purpose digital I/O pin.ADC0_CH0 A ADC0 channel0 analog input.ACMP0_P0 A Analog comparator0 positive input pin. ECAP_P0 I Enhanced Input Capture input pin4 10 PB.1 I/O General purpose digital I/O pin.ADC0_CH1 A ADC0 channel1 analog input.ACMP0_P1 A Analog comparator0 positive input pin. ECAP_P1 I Enhanced Input Capture input pin5 11 PB.2 I/O General purpose digital I/O pin.ADC0_CH2 A ADC0 channel2 analog input.BPWM_CH1 I/O PWM channel1 output/capture input. ACMP0_P2 A Analog comparator0 positive input pin. ECAP_P2 I Input capture channel 26 12 PB.4 I/O General purpose digital I/O pin.ADC1_CH0 A ADC1 channel0 analog input.ACMP0_N A Analog comparator0 negative input pin. TM1 I/OTimer1 event counter input / toggleoutput7 13 PC.1 I/O General purpose digital I/O pin.ADC0_CH4 A ADC0 channel4 analog input.STADC I ADC external trigger input.ACMP0_P3 A Analog comparator0 positive input pin.ACMP1_P1 A Analog comparator1 positive input pin.SPI0_MOSI I/O SPI0 1st MOSI (Master Out, Slave In)pin.SPI1_MISO I/O SPI1 MISO (Master In, Slave Out) pin.NM1817 SERIES DATASHEET8 14 nRESET I External reset input: active LOW, withan internal pull-up. Set this pin low resetto initial state.9 15 PB.3 I/O General purpose digital I/O pin. ACMP1_N A Analog comparator1 negative input pin. PGA_I A PGA input pinTM0 I/O Timer0 event counter input / toggleoutput10 16 PC.2 I/O General purpose digital I/O pin.ADC1_CH2 A ADC1 channel2 analog input.BRAKE I Brake input pin of EPWM.CCAP_P1 I Timer Continuous Capture input pinI2C1_SDA I/O I2C1 data input/output pin.SPI0_MISO I/O SPI0 1st MISO (Master In, Slave Out)pin.SPI1_MOSI I/O SPI1 MOSI (Master Out, Slave In) pin. UART1_RXD I Data receiver input pin for UART1.11 17 PD.2 I/O General purpose digital I/O pin.ICE_DAT I/O Serial wired debugger data pinADC1_CH1 A ADC1 channel1 analog input.CCAP_P0 I Timer Continuous Capture input pinI2C0_SDA I/O I2C0 data input/output pin.SPI0_MOSI I/O SPI0 1st MOSI (Master Out, Slave In)pin.SPI1_MISO I/O SPI1 MISO (Master In, Slave Out) pin. UART0_RXD I Data receiver input pin for UART0.12 18 PD.3 I/O General purpose digital I/O pin. BPWM_CH1 I/O PWM channel1 output/capture input. UART1_TXD O Data transmitter output pin for UART1.18 19 PC.3 I/O General purpose digital I/O pin. ACMP1_O O Analog comparator1 output. PGA_O A PGA output pinSPI0_CLK I/O SPI0 serial clock pin.SPI1_SS I/O SPI1 slave select pin17 20 PD.1 I/O General purpose digital I/O pin.ICE_CLK I Serial wired debugger clock pinACMP1_P2 A Analog comparator1 positive input pin.I2C0_SCL I/O I2C0 clock pin.NM1817 SERIES DATASHEETSPI0_CLK I/O SPI0 serial clock pin.SPI1_SS I/O SPI1 slave select pinUART0_TXD O Data transmitter output pin for UART0.16 21 PD.4 I/O General purpose digital I/O pin. BPWM_CH0 I/O PWM channel0 output/capture input. UART1_RXD I Data receiver input pin for UART1.15 22 PC.0 I/O General purpose digital I/O pin.ADC0_CH3 A ADC0 channel3 analog input.BPWM_CH0 I/O PWM channel0 output/capture input. ACMP1_P0 A Analog comparator1 positive input pin. I2C1_SCL I/O I2C1 clock pin.SPI0_SS I/O SPI0 slave select pin.SPI1_CLK I/O SPI1 serial clock pinUART1_TXD O Data transmitter output pin for UART1.19 23 PD.5 I/O General purpose digital I/O pin. UART0_TXD O Data transmitter output pin for UART0.7 24 W_LO HO Low side gate driver output8 26 W_VS HP High side floating supply return9 27 W_HO HO High side gate driver output10 28 W_VB HP High side floating supply11 31 COM HP Low side power supply return12 32 VCC HP Low side and logic fixed power supply13 33 V_LO HO Low side gate driver output14 35 V_VS HP High side floating supply return15 36 V_HO HO High side gate driver output16 37 V_VB HP High side floating supply17 40 U_LO HO Low side gate driver output18 42 U_VS HP High side floating supply return19 43 U_HO HO High side gate driver output20 44 U_VB HP High side floating supply25 1 HIN1 PWM0 connect to HIN124 2 LIN1 PWM1 connect to LIN123 3 HIN2 PWM2 connect to HIN222 4 LIN2 PWM3 connect to LIN221 5 HIN3 PWM4 connect to HIN320 6 LIN3 PWM5 connect to LIN3NM1817 SERIES DATASHEET13,14 1,3,25,29,30,34,38,39,41 No connected[1] Low voltage I/O type description. I: input, O: output, I/O: quasi bi-direction, D: open-drain, P:power pin, ST: Schmitt trigger, A: Analog input.[2] High voltage I/O type description. HI: input, HO: output, HP: power pin.NM1817 SERIES DATASHEETNM1817 SERIES DATASHEET 4 BLOCK DIAGRAM4.1 NM1817 Block Diagram Cortex-M048 MHz Clock Controller AHB APB-Bridge GPIO PA~PD ADC 8ch/12bit Watch Dog Timer Advanced Capture Serial Port UART/SPI/I2C EPWM 0~5Timer 0/1Flash Control ISP 4KB Info Option LDROM 2KB CONFIG SRAM 4KB 2 sets *ComparatorHW Divider 4~24MHz XTAL 32.768kHz XTAL 48MHz RC OSC10kHz RC OSC VHin VLin WHin WLinULin UHinBPWM 0~1MCU AP ROM29.5KB SP ROM 1.5KB Configurable Data FLASH (Share with AP ROM)PWM2PWM3PWM4PWM5PWM1PWM0Gate DriverPULSE GEN RSQU_VBU_HOU_VSU_LOR VCC 100K DRIVERDRIVER UVLOU Phase DriverV Phase Driver V_VB V_HO V_VS V_LO W Phase Driver W_VB W_HOW_VS W_LOCOMUHIN VCC_UVLO VCC ULIN VCC VHINVLIN VCC WHIN WLIN NOISE FILTER CROSS CONDUCTION PREVENTION CONTROL LOGICLDO VCCLDO_5V_OUTVCCEnhanced Input Capture ENGDPC.4En VSS 100KFigure 4.1-1 NM1817 Block Diagram5 NM1817 ELECTRICAL CHARACTERISTICSThe electrical characteristics refer to both MCU NM1120 and Gate Driver NPT23011.According to Figure 4.1-1, we can list a table of pin definition in NM1817 as below:Alternative function , MFP_0 means setting MFP[3:0]=0x0, MFP_5 means MFP[3:0]=0x5GPIO ICE XTAL ADC PWM_BRAKE ACMP0ACMP1PGA(OP)TIMER I2C SPIO SPI1UARTMFP_0MFP_1MFP_2MFP_3MFP_4MFP_5MFP_6MFP_7MFP_8MFP_9MFP_A MFP_BGPA0CLKO O EPWM_CH0O I²C1_SCL I/O SPI0_SS I/O SPI1_CLK I/O UART1_TXD OGPA1EPWM_CH1O I²C1_SDA I/O SPI0_MISO I/O SPI1_MOSI I/O UART1_RXD IGPA2EPWM_CH2O I²C0_SDA I/O SPI0_MOSI I/O SPI1_MISO I/O UART0_RX D IGPA3EPWM_CH3O I²C0_SCL I/O SPI0_CLK I/O SPI1_SS I/O UART0_TX D OGPA4XT_IN A EPWM_CH4OGPA5XT_OUT A EPWM_CH5O ACMP0_O OGPB0ADC0_CH0A ACMP0_P0A ICAP0IGPB1ADC0_CH1A ACMP0_P1A ICAP1IGPB2ADC0_CH2A BPWM_CH1O ACMP0_P2A ICAP2IGPB3ACMP1_N A PGA_I A T0I/OGPB4ADC1_CH0A ACMP0_N A T1I/OGPC0ADC0_CH3A BPWM_CH0O ACMP1_P0A I²C1_SCL I/O SPI0_SS I/O SPI1_CLK I/O UART1_TXD OGPC1ADC0_CH4A STADC I ACMP0_P3A ACMP1_P1A SPI0_MOSI I/O SPI1_MISO I/OGPC2ADC1_CH2A PWM_BRAKE I CCAP I I²C1_SDA I/O SPI0_MISO I/O SPI1_MOSI I/O UART1_RXD IGPC3ACMP1_O O PGA_O A SPI0_CLK I/O SPI1_SS I/OGPC4ICAP0InRESETGPD1ICE_CLK I ACMP1_P2A I²C0_SCL I/O SPI0_CLK I/O SPI1_SS I/O UART0_TX D OGPD2ICE_DAT I/O ADC1_CH1A CCAP I I²C0_SDA I/O SPI0_MOSI I/O SPI1_MISO I/O UART0_RX D IGPD3BPWM_CH1O UART1_TX D OGPD4BPWM_CH0O UART1_RXD IGPD5UART0_TX D OGPD6UART0_RX D IVDDVSS: Function has been reserved for another usage.Attention :a. Some functions would be prohibition because of the limitation of pin definition in NM1817.b. GPA0 ~ GPA5 should be set as EPWM0 ~ EPWM5, GPC4 should be set as GPIO.NM1817 SERIES DATASHEET5.1 NM1120 Absolute Maximum RatingsSymbol Parameter Min Max UnitV DD-V SS DC Power Supply-0.3+7.0V V IN Input Voltage V SS -0.3V DD +0.3V 1/t CLCL Oscillator Frequency424MHz T A Operating Temperature-40+105℃T ST Storage Temperature-55+150℃I DD Maximum Current into VDD-120mAI SS Maximum Current out of VSS-120mAI IO Maximum Current sunk by an I/O pin-35mA Maximum Current sourced by an I/O pin-35mA Maximum Current sunk by total I/O pins-100mA Maximum Current sourced by total I/O pins-100mAaffects the life and reliability of the device.5.2 NM1120 DC Electrical Characteristics(V DD - V SS = 2.1 ~ 5.5 V, T A = 25︒C)Symbol Parameter Min Typ Max Unit Test ConditionsNM1817 SERIES DATASHEETV DD Operation voltage 2.1 - 5.5 V V DD = 2.1V ~ 5.5V up to 48 MHz V SS/A VSS Power Ground -0.3 - - VV LDO LDO Output Voltage 1.5 VV BG Band-gap Voltage3 1.14 1.20 1.24 V V DD = 3.0V ~ 5.5V, T A = -40︒C~105︒CI DD5Operating CurrentNormal Run ModeHCLK = 48 MHz - 9.7 - mAV DD**HXT HIRCAll DigitalModules5.5V X 48 MHz VI DD6- 7.4 - mA 5.5V X 48 MHz X I DD7- 9.7 - mA 3V X 48 MHz V I DD8- 7.4 - mA 3V X 48 MHz XI DD1Operating CurrentNormal Run ModeHCLK = 24 MHz - 5.4 - mAV DD**HXT HIRCAll DigitalModules5.5V 24 MHz X VI DD2- 4.4 - mA 5.5V 24 MHz X X I DD3- 5.4 - mA 3V 24 MHz X V I DD4- 4.4 - mA 3V 24 MHz X XI DD9Operating CurrentNormal Run ModeHCLK = 16 MHz -3.7- mAV DD**HXT HIRCAll DigitalModules5.5V 16 MHz X VI DD10- 3.0 - mA 5.5V 16 MHz X X I DD11- 3.7 - mA 3V 16 MHz X V I DD12- 3.1 - mA 3V 16 MHz X XI DD9Operating CurrentNormal Run ModeHCLK = 12 MHz - 2.8 - mAV DD**HXT HIRCAll DigitalModules5.5V 12 MHz X VI DD10- 2.3 - mA 5.5V 12 MHz X XI DD11- 2.8 - mA 3V 12 MHz X VI DD12- 2.3 - mA 3V 12 MHz X XNM1817 SERIES DATASHEETI DD13Operating CurrentNormal Run ModeHCLK = 4 MHz - 1.2 - mAV DD**HXT HIRCAll DigitalModules5.5V 4 MHz X VI DD14- 1.0 - mA 5.5V 4 MHz X X I DD15- 1.2 - mA 3V 4 MHz X V I DD16- 1.0 - mA 3V 4 MHz X XI DD17Operating CurrentNormal Run ModeHCLK = 32 kHz - 291.7 - μAV DD**LXT LIRCAll DigitalModules5.5V 32 KHz V V[1]I DD18- 290.7 - μA 5.5V 32 KHz V X I DD19- 280.8 - μA3V 32 KHz V V[1] I DD20- 281.4 - μA3V 32 KHz V XI DD17Operating CurrentNormal Run ModeHCLK = 10 kHz - 248.0 - μAV DD**HXT LIRCAll DigitalModules5.5V X 10 KHz V[2]I DD18- 247.7 - μA 5.5V X 10 KHz X I DD19- 237.9 - μA3V X 10 KHz V[2] I DD20- 237.5 - μA3V X 10 KHz XI IDLE5Operating CurrentIdle ModeHCLK= 48 MHz - 4.9 - mAV DD**HXT HIRCAll DigitalModules5.5V X V VI IDLE6- 2.6 - mA 5.5V X V X I IDLE7- 4.9 - mA 3V X V V I IDLE8- 2.6 - mA 3V X V XI IDLE1Operating CurrentIdle ModeHCLK = 24 MHz - 2.8 - mAV DD**HXT HIRCAll DigitalModules5.5V 24 MHz X VI IDLE2- 1.9 - mA 5.5V 24 MHz X XI IDLE3- 2.8 - mA 3V 24 MHz X VI IDLE4- 1.9 - mA 3V 24 MHz X XNM1817 SERIES DATASHEETI IDLE9Operating CurrentIdle ModeHCLK = 16 MHz - 2.0 - mAV DD**HXT HIRCAll DigitalModules5.5V V X VI IDLE10- 1.3 - mA 5.5V V X X I IDLE11- 2.0 - mA 3V V X V I IDLE12- 1.4 - mA 3V V X XI IDLE9Operating CurrentIdle ModeHCLK = 12 MHz - 1.5 - mAV DD**HXT HIRCAll DigitalModules5.5V V X VI IDLE10- 1.0 - mA 5.5V V X X I IDLE11- 1.5 - mA 3V V X V I IDLE12- 1.0 - mA 3V V X XI IDLE13Operating CurrentIdle ModeHCLK = 4 MHz - 0.8 - mAV DD**HXT HIRCAll DigitalModules5.5V V X VI IDLE14- 0.6 - mA 5.5V V X X I IDLE15- 0.7 - mA 3V V X V I IDLE16- 0.6 - mA 3V V X XI DD17Operating CurrentIdle ModeHCLK = 32 kHz - 274.3 - μAV DD**HXT LIRCAll DigitalModules5.5V X V V[1]I DD18- 273.0 - μA 5.5V X V X I DD19- 265.0 - μA3V X V V[1] I DD20- 263.9 - μA3V X V XI DD17Operating CurrentIdle ModeHCLK = 10 kHz - 232.6 - μAV DD**HXT LIRCAll DigitalModules5.5V X V V[2]I DD18- 232.2 - μA 5.5V X V XI DD19- 222.5 - μA3V X V V[2]I DD20- 222.1 - μA3V X V XNM1817 SERIES DATASHEETI PWD1Standby CurrentPower-down Mode(Deep Sleep Mode) - 1.9 - μAV DD = 5.5V, All oscillators and analogblocks turned off.I PWD2- 1.7 - μA V DD= 3V, All oscillators and analog blocks turned off.I LK Input LeakageCurrentPA/PB/PC/PD-1 - +1 μAV DD = 5.5V, 0 < V IN< V DDOpen-drain or input only modeV IL1Input Low VoltagePA/PB/PC/PD (TTLInput)-0.3 1.33VV DD = 5.5 V-0.3 1 V DD = 3.3 VV IH1Input High VoltagePA/PB/PC/PD (TTLInput)1.47V DD +0.3VV DD = 5.5 V1.08V DD +0.3V DD = 3.3 VV ILS Negative-goingThreshold(Schmitt Input),nRESET- - 0.3V DD V -V IHS Positive-goingThreshold(Schmitt Input),nRESET0.7V DD- - V -R RST Internal nRESETPin Pull-up Resistor48 148 kΩV DD = 2.1 V ~ 5.5VV ILS Negative-goingThreshold(Schmitt input),PA/PB/PC/PD- - 0.3V DD V -V IHS Positive-goingThreshold(Schmitt input),PA/PB/PC/PD0.7V DD- - V -I IL Logic 0 InputCurrentPA/PB/PC/PD(Quasi-bidirectionalMode)- -63.65 μA V DD = 5.5 V, V IN = 0VI TL Logic 1 to 0Transition CurrentPA/PB/PC/PD- -566.7 - μA V DD = 5.5 VI SR11Source CurrentPA/PB/PC/PD(Quasi-bidirectionalMode) - -372 - μA V DD = 4.5 V, V IN = 2.4 VI SR12- -76.8 - μA V DD = 2.7 V, V IN = 2.2 V I SR13- -37.3 - μA V DD = 2.1 V, V IN = 1.8 VI SR21Source CurrentPA/PB/PC/PD - -19.2 - mA V DD = 4.5 V, V IN = 2.4 VI SR22- -4 - mA V DD = 2.7 V, V IN = 2.2 VNM1817 SERIES DATASHEETNM1817 SERIES DATASHEET I SR23 (Push-pull Mode) - -2 - mA V DD = 2.1 V, V IN = 1.8 V I SK11 Sink Current PA/PB/PC/PD(Quasi-bidirectional,Open-Drain andPush-pull Mode) - 12.8 - mA V DD = 4.5 V, V IN = 0.4 V I SK12 - 8.1 - mA V DD = 2.7 V, V IN = 0.4 VI SK13 - 6 - mA V DD = 2.1 V, V IN = 0.4 V Notes:1. Only enable modules which support 32kHz LIRC clock source2. Only enable modules which support 10kHz LIRC clock source3. Guaranteed by design, not test in production.** : The function has been reserved in NM1817.5.3 NM1120 AC Electrical Characteristics5.3.1 **External Input Clock (function has been reserved in NM1817)Symbol Parameter Min Typ Max Unit Test Conditions t CHCX Clock High Time 10 - - ns - t CLCX Clock Low Time 10 - - ns - t CLCH Clock Rise Time 2 - 15 ns - t CHCL Clock Fall Time 2 - 15 ns -t CHCX90%10%t CLCHt CHCL t CLCXt CLCL0.3 V DD0.7 V DDNM1817 SERIES DATASHEET5.3.2 **External 4~24MHz High Speed Crystal (HXT)(function has been reserved in NM1817) Symbol Parameter Min. Typ. Max Unit Test Conditions V HXT Operation Voltage 2.1 - 5.5 V -T A Temperature -40 - 105 ℃ -I HXT Operating Current - 414 - uA 12MHz, V DD = 5.5V f HXT Clock Frequency 4 - 24 MHz -5.3.3 **Typical Crystal Application Circuits (function has been reserved in NM1817) Crystal C1 C24MHz ~ 24MHz 10~20 pF 10~20pFFigure 5-1 NM1120 Typical Crystal Application Circuit5.3.4 48MHz Internal High Speed RC Oscillator (HIRC)Symbol Parameter Min Typ Max Unit Test Conditions V HRC Supply Voltage - 1.5 - V -f HRC Center Frequency - 48 - MHz -Calibrated Internal Oscillator Frequency -1 - +1 % T A = 25 ℃V DD = 5.5 V2% % T A = -40℃~105℃V DD =2.5 V~ 5.5 VI HRC Operating Current - 1090 - μA T A = 25 ℃,V DD = 5 V5.3.5 10kHz Internal Low Speed RC Oscillator (LIRC)Symbol Parameter Min Typ Max Unit Test ConditionsXTAL1C1C2XTAL24~24 MHzCrystal Vss VssNM1817 SERIES DATASHEET V LRC Supply Voltage - 1.5V - V -f LRCCenter Frequency - 10 - kHz -Oscillator Frequency -50[1] - +50[1] % V DD = 2.1 V ~ 5.5 VT A = -40℃ ~ +105℃I LRC Operating Current - 0.4 - μA T A = 25 ℃,V DD = 5 V5.4 NM1120 Analog Characteristics5.4.1 12-bit SAR ADC Symbol Parameter Min Typ Max Unit Test Condition - Resolution - - 12 Bit -DNL Differential Nonlinearity Error - ±2 - LSB VDD = 5.5V INL Integral Nonlinearity Error - ±1 - LSB VDD = 5.5V E O Offset Error - -0.33 - LSB VDD = 5.5V E G Gain Error (Transfer Gain) - 0.33 - LSB VDD = 5.5V E A Absolute Error - -2.62 - LSB VDD = 5.5V - Monotonic Guaranteed - -F ADC ADC Clock Frequency 12 16 MHz V DD = 3.0 ~5.5 VT ACQ Acquisition Time (Sample Stage) N+11/F ADC V DD = 3.0 ~5.5 VN is sampling counter, N=1~1024200 ns V DD = 3.0~5.5 VT CONV Conversion Time 3 1000 1050 ns V DD = 3.0~5.5 V V DD Supply Voltage 3.0 - 5.5 V -I DDA Supply Current (Avg.) - 1 - mA V DD = 5.5 V V IN Analog Input Voltage 0 - AV DD V -C IN Input Capacitance 2 - 1.6 - pF -R IN Input Load 2 - 2.5 - kΩ -1. ADC voltage reference is the same with V DD .2. It’s for sample and hold. The maximum value depends on process variation. Basically, the variation of CIN is less than about 10% of typical value and the variation of RIN is less about 20% of typical value.3. Guaranteed by design, not test in production.The conversion time is up to auto-completion of analog comparison in ADC IP and the typical value is about 1000ns at V DD = 5V.。

电源磁芯尺寸功率参数常用电源磁芯参数MnZn 功率铁氧体EPC 功率磁芯特点：具有热阻小、衰耗小、功率大、工作频率宽、重量轻、结构合理、易表面贴装、屏蔽效果好等优点，但散热性能稍差。

用途：广泛应用于体积小而功率大且有屏蔽和电磁兼容要求的变压器，如精密仪器、程控交换机模块电源、导航设备等。

EPC型功率磁芯尺寸规格磁芯型号Type尺寸Dimensions(mm)A B C D Emin F G HminEPC10/8 10.20±0.20 4.05±0.30 3.40±0.20 5.00±0.20 7.60 2.65±0.20 1.90±0.20 5.30 EPC13/13 13.30±0.30 6.60±0.30 4.60±0.20 5.60±0.20 10.50 4.50±0.30 2.05±0.20 8.30 EPC17/17 17.60±0.50 8.55±0.30 6.00±0.30 7.70±0.30 14.30 6.05±0.30 2.80±0.20 11.50 EPC19/20 19.60±0.50 9.75±0.30 6.00±0.30 8.50±0.30 15.80 7.25±0.30 2.50±0.20 13.10 EPC25/25 25.10±0.50 12.50±0.30 8.00±0.30 11.50±0.30 20.65 9.00±0.30 4.00±0.20 17.00 EPC27/32 27.10±0.50 16.00±0.30 8.00±0.30 13.00±0.30 21.60 12.00±0.30 4.00±0.20 18.50 EPC30/35 30.10±0.50 17.50±0.30 8.00±0.30 15.00±0.30 23.60 13.00±0.30 4.00±0.20 19.50 EPC39/39 39.00±0.50 19.60±0.30 15.60±0.30 18.00±0.30 30.70 14.00±0.30 10.00±0.30 24.50 EPC42/44 42.40±1.00 22.00±0.30 15.00±0.40 17.00±0.30 33.50 16.00±0.30 7.40±0.30 26.50EPC46/49 46.00±1.00 24.80±0.30 19.50±0.40 20.80±0.40 35.70 18.40±0.40 11.90±0.30 28.40 EPC46.5/44 46.50±1.00 22.30±0.30 19.40±0.40 21.00±0.40 36.90 15.80±0.40 12.00±0.30 29.40 EPC54/54 54.50±1.20 27.20±0.30 21.50±0.40 26.50±0.40 43.00 19.30±0.40 14.00±0.30 34.30EPC功率磁芯电气特性及有效参数注：AL值测试条件为1KHz,0.25v,100Ts,25±3℃Pc值测试条件为100KHz,200mT,100℃EE、EEL、EF型功率磁芯特点：引线空间大，绕制接线方便。

序言感謝您採用台達高性能‧迷你型交流電機驅動器 VFD-M系列。

VFD-M係採用高品質之元件、材料及融合最新的微電腦控制技術製造而成。

此產品說明提供給使用者安裝、參數設定、異常診斷、排除及日常維護交流電機驅動器相關注意事項。

為了確保能夠正確地安裝及操作交流電機驅動器，請在裝機之前，詳細閱讀本產品說明，並請妥善保存隨機附贈之光碟內容及交由該機器的使用者。

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以下各事項請使用者在操作本產品時特別留意⏹本說明書中為了詳盡解說產品細部，會將外殼拿開或將安全遮蓋物拆解后，以圖文方式作為描述。

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⏹由于產品精益求精，當內容規格有所修正時，請咨詢代理商或至台達網站( /industrialautomation/ )下載最新版本。

⏹交流電機驅動器有時會簡稱為變頻器或是驅動器，若內文敘述有提及變頻器一詞，便是指交流電機驅動器。

目錄一、使用及安裝1-1 產品外觀………………………………………………………………………………………………1-2 1-2 產品安裝………………………………………………………………………………………………1-5 1-3 產品尺寸…………………………………………………………………………………….……….1-7 二、配線2-1 配線說明………………………………………………………………………………………………2-2 2-2 系統配線圖……………………………………………………………………………………………2-5 2-3 主回路端子說明………………………………………………………………………………………2-6 2-4 控制回路端子說明…………………………………………………………………………………..2-9三、簡易面板與運轉3-1 面板說明………………………………………………………………………………………………3-2 3-2 運轉方式……………………………………………………………………………………………..3-6 3-3 試運轉…………………………………………………………………………………………………3-7四、參數功能說明4-1參數功能一覽表…………………………………………………………………………………..……4-2 4-2 應用場合相關參數設定……………………………………………………………………………..4-10 4-3 參數功能詳細說明…………………………………………………………………………………..4-14五、異常診斷方式5-1 過電流OC…………………………………………………………………………………………..…5-2 5-2 對地短路故障GFF……………………………………………………………………………………5-3 5-3 過電壓OV……………………………………………………………………………………………..5-4 5-4 電壓不足Lv……………………………………………………………………………………………5-5 5-5 過熱OH………………………………………………………………………………………………..5-6 5-6 過載OL………………………………………………………………………………………………..5-7 5-7 數字操作器面板異常…………………………………………………………..…………………...5-8 5-8 電源欠相PHL…………………………………………………………………………………………5-9 5-9 電機無法運轉………………………………………………………………………………………5-10 5-10 電機速度無法變更………………………………………………………………………………..5-11 5-11 電機失速…………………………………………………………………………………………..5-12 5-12 電機異常…………………………………………………………………………………………..5-13 5-13 電磁雜音、感應雜音之對策……………………………………………………………………..5-145-14 設置的環境措施…………………………………………………………………………………..5-15 5-15 防止交流電機驅動器影響其他機器……………………………………………………………..5-16六、保護及檢查6-1 保護動作一覽表………………………………………………………………………………………6-2 6-2 定期維護檢查…………………………………………………………………………………………6-5附錄A 標準規格……………………………………………………………………………………………..…A-1 附錄 B 配件選購B-1 剎車電阻選用一覽表…………………………………………………………………………………B-2 B-2無熔絲開關………………………………………………………………………………………….…B-5 B-3 電抗器…………………………………………………………………………………………………B-7 B-3-1 AC 電抗器……………………………………………………………………………………….B-7 B-3-2零相電抗器……………………………………………………………………………………….B-9 B-4 遠方操作盒RC-01…………………………………………………………………………….…..B-10 B-5通訊界面操作器PU06………………………………………………………………….…………B-11 B-6 EMI 濾波器………………………………………………………………………………….………B-13 B-7 Din Rail………………………………………………………………………………….…………...B-19附錄 C 選擇合適的交流電機驅動器C-1交流電機驅動器容量計算方式………………………………………………………………………C-2 C-2 選用交流電機驅動器注意事項……………………………………………………………………...C-4 C-3 電機選用……………………………………………………………………………………………...C-5当您需要和本产品的技术人员连络时, 请告知技术人员这个使用手册以及韧体(firmware)的版本Issue Edition手册版本: 15Firmware Version韧体版本: 3.04Issue date发行日期: 2014年10月改版历程1) 更改第2-9页控制回路端子图, 其余不变.2) 更改B-5通讯接口操作器PU06 的说明为, 开始闪烁且可复制2组参数到PU-06，READ0～READ1.Issue Edition手册版本: 16Firmware Version韧体版本: 3.13Issue date发行日期: 2015年 08月一、使用及安裝1-1 產品外觀1-2 產品安裝1-3 產品尺寸客戶收到本產品時應是置于其包裝箱內。

TOSHIBA TRANSISTOR SILICON NPN TRIPLE DIFFUSED MESA TYPE2SC5858HORIZONTAL DEFLECTION OUTPUT FOR HDTV, DIGITAL TV, PROJECTION TVz High Voltage: V CBO = 1700 V z Low Saturation Voltage : V CE (sat) = 1.5 V (Max) z High Speed : t f(2) = 0.1 μs (Typ.)ABSOLUTE MAXIMUM RATINGS (Tc = 25°C)CHARACTERISTIC SYMBOL RATING UNITCollector −Base Voltage V CBO 1700 V Collector −Emitter Voltage V CEO 750 V Emitter −Base Voltage V EBO5 V DC I C 22 Collector Current PulseI CP 44ABase CurrentI B 11 ACollector Power Dissipation P C 200 W Junction Temperature T j 150 °C Storage Temperature RangeT stg−55~150 °CNote: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the significant change intemperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings. Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook(“Handling Precautions”/Derating Concept and Methods) and individual reliability data (i.e. reliability test report and estimated failure rate, etc).Unit: mmJEDEC ― JEITA ―TOSHIBA 2-21F2AWeight: 9.75 g (typ.)ELECTRICAL CHARACTERISTICS (Tc = 25°C)CHARACTERISTIC SYMBOL TEST CONDITION MIN TYP. MAX UNITCollector Cut −off Current I CBO V CB = 1700 V, I E = 0 ― ― 1 mA Emitter Cut −off CurrentI EBO V EB = 5 V, I C = 0 ― ― 100μACollector − Emitter Breakdown VoltageV (BR) CEO I C = 10 mA, I B = 0 750 ―― Vh FE (1)V CE = 5 V, I C = 2 A 30 ― 60 h FE (2) V CE = 5 V, I C = 8 A 11 ― 19 DC Current Gainh FE (3)V CE = 5 V, I C = 17 A 5 ― 7.5 ― Collector −Emitter Saturation Voltage V CE (sat) I C = 17 A, I B = 4.25 A ―― 1.5 VBase −Emitter Saturation Voltage V BE (sat) I C = 17 A, I B = 4.25 A ― 1.0 1.5 V Transition Frequency f T V CE = 10 V, I C = 0.1 A ― 2 ― MHz Collector Output CapacitanceC ob V CB = 10 V, I E = 0, f = 1 MHz ― 280 ― pF Storage Timet stg(1) ― 4.5 ― Fall Time t f(1) I CP = 9 A , I B1 (end) = 1.4 Af H = 32 kHz―0.1―μsStorage Time t stg(2) ― 3.5 ― Switching TimeFall Timet f(2)I CP = 8 A, I B1 (end) = 1.2 A f H = 45 kHz―0.1―μsCollector-emitter voltage V CE (V)I C – V CEC o l l e c t or c u r r e n t I C (A )Collector current I C (A)h FE – I CD C c u r r e n t g a i n h F E0.010.1 10 100 1C o l l e c t o r c u r r e n t I C (A )Base −emitter voltage V BE (V)I C – V BE0.2 0.4 0.6 1.21.00.8 10 02 4 6 8 10Collector current I C (A)V CE (sat) – I CC o l l e c t o r -e m i t t e r s a t u r a t i o n v o l t a g e V C E (s a t ) (V )1001100.10.01101Collector current I C (A)V CE (sat) – I CC o l l e c t o r -e m i t t e r s a t u r a t i o n v o l t a g e V C E (s a t ) (V )100.10.0111001 10Base current I B (A)V CE – I BC o l l e c t o r -e m i t t e r v o l t a g e V C E (V )0.8 1.6 Base current I B (A) V CE – I Bo l l e c t o r -e m i t t e r v o l t a g e V C E (V )4.00.8 1.6 3.22.4V CE(sat) – I CC o l l e c t o r-e m i t t e r s a t u r a t i o n v o l t a g e V C E (s a t ) (V )Collector current I C (A)0.01110.11010 100C o l l e c t o r -e m i t t e r v o l t a g e V C E (V )Base current I C (A)V CE – IB4.00.8 1.6 3.2 2.4C o l l e c t o r p o we r d i s s i p a t i o n P C (W )Case temperature Tc (°C)P C – Tc25 75 100 125 15050Collector-emitter voltage V CE (V)Reverse Bias – Safe Operating AreaC o l l e c t o r c u r r e n t I C (A )1000.10.001101000010 100 10.011000r th(j-c) – t wT r a n s i e n t t h e r m a l i m p e d a n c e (j u n c t i o n −c a s e ) r t h (j -c ) (°C /W )Pulse width t w(s)10μ1000100μ 1m 100m10100 10m1Collector-emitter voltage V CE (V)Safe Operating AreaC o l l e c t o r c u r r e n t I C (A )1100 100010RESTRICTIONS ON PRODUCT USE20070701-EN •The information contained herein is subject to change without notice.•TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.• The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.).These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in his document shall be made at the customer’s own risk.•The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations.• The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patents or other rights of TOSHIBA or the third parties.• Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.。

RACE Newsletter09/04/2018CAR:NEW : FLASH_0675 VOLVO BOSCH EDC17CP22/CP48/CP68 CANATTENTION!In order to run the writing procedure with the serial protocol flash_0675 it is necessary to perform first the PATCH UNLOCK with the New Trasdata - plugin 158 / 681 / 743.Please check the specific manual.VOLVO C30 Mk2/C70/S40/V50 Mk2/V40 Mk2-3 2.0L 16V D3 110kW EDC17CP22/CP48VOLVO C30 Mk2/V60 2.4L 20V D5 132kW EDC17CP22/CP48VOLVO C70/ S60 Mk2/V60/XC60 2.0L 20V D3 120kW EDC17CP22/CP48VOLVO S60 Mk2/XC70 Mk3/S80Mk3/V60/V70 Mk3/XC60/XC70 Mk3 2.4L 20V D5 158kW EDC17CP22/CP48VOLVO S80 Mk2/V70 Mk3/XC60 2.4L 20V D5 151kW EDC17CP22VOLVO V50 Mk2 2.0L 20V D5 130kW EDC17CP22VOLVO V70 Mk3 2.4L 20V D5 130kW EDC17CP22VOLVO X C60 2.4L 20V D4 120-129kW EDC17CP22VOLVO X C70 Mk3/XC60/ XC70 Mk3/XC90/V60 2.4L 20V D5 120kW EDC17CP22/CP48/CP68VOLVO S60 Mk2/V60/V70 Mk3 2.0L 20V D3 100kW EDC17CP48VOLVO S80 Mk3/V60/V70 Mk3/XC70 Mk3 2.0L 16V D4 120kW EDC17CP48VOLVO S80 Mk3 2.4L 20V D4 120kW EDC17CP48VOLVO V40 Mk3 2.0L 16V D4 130kW EDC17CP48VOLVO V60 2.4L 20V D6 HYBRID 158kW EDC17CP48 VOLVO X C60 2.0L 20V D5 100kW EDC17CP48VOLVO X C60/XC70 Mk3 2.4L 20V D4 133kW EDC17CP48VOLVO X C60 2.4L 20V D4 140kW EDC17CP68VOLVO X C70 Mk3 2.4L 20V D5 133kW EDC17CP68VOLVO X C70 Mk3 2.4L 20V D5 162kW EDC17CP68NEW : FLASH_0676 MERCEDES DELPHI CRD3.E/P CANATTENTION!In order to run the writing procedure with the serial protocol flash_0676 it is necessary to perform first the PATCH UNLOCK with the New Trasdata - plugin 935.Please check the specific manual.MERCEDES A CLASS W176 A200 2.2L 16V CDI 100kW CRD3.E/PMERCEDES A CLASS W176 A220 2.2L 16V CDI 130kW CRD3.E/PMERCEDES B CLASS W246 B200 2.2L 16V CDI 100kW CRD3.E/PMERCEDES C CLASS W205 C220 2.2L 16V CDI 100-120-125kW CRD3.E/PMERCEDES C CLASS W205 C250 2.2L 16V CDI 152kW CRD3.E/PMERCEDES CLA CLASS C117 CLA200 2.2L 16V CDI 100kW CRD3.E/PMERCEDES CLA CLASS C117 CLA220 2.2L 16V CDI 130kW CRD3.E/PMERCEDES GLA CLASS X156 GLA200 2.2L 16V CDI 100kW CRD3.E/PMERCEDES GLA CLASS X156 GLA220 2.2L 16V CDI 130kW CRD3.E/PMERCEDES SPRINTER W906 316-516 2.2L CDI 105-120kW CRD3.E/PTRUCK:NEW: FLASH_0677 CUMMINS – TEREX ATLAS TRUCK CM570 CANTEREX TRUCKS TA300 10.8L QSM 276kW CM570TRACTOR:NEW: FLASH_0674 CUMMINS – TIGERCAT TRACTOR CM2250 CANTIGERCAT FELLER BUNCHERS 724E 6.7L QSB 164kW CM2250SW : 3.0.186 DLL : 1.0.197 FW: 12.09 build 0002 MOTOROLA MPC500 CPUs:ADD : 01 - MOTOROLA MPC500BOSCH EDC7C1 MPC555/MPC556 INTERNATIONAL DieselNEW - plugin 1037 – INTERNATIONAL BUS 3100 4.8L 110kW EDC7C1 STMICROELECTRONICS CPUs:ADD : 02 - STMICROELECTRONICS ST10BOSCH DCU15 ST10C167 DAF AdBlue DCUNEW - plugin 1032 – FENDT 300 VARIO 313 4.4L 99kWINFINEON TRICORE CPUs:ADD : 03 - INFINEON TRICORE NO PSW CANLINEBOSCH REXROTH SRC 9-34 TC1796 AGCO GEARBOX CVTNEW – plugin 951 – AGCO GEARBOX CVTBOSCH ME17.9.71 TC1724 PSA PetrolNEW – plugin 1035 – PEUGEOT 206 1.6L 16V 82kW ME17.9.71BOSCH ME17.2.4/BMS-MP TC1791/TC1793 BMW MOTORRAD PetrolNEW – plugin 1057 – BMW MOTORRAD S SERIES S 1000 R my2017 1.0L 121kW ME17.2.4BMW MOTORRAD S SERIES S 1000 RR my2017 1.0L 146kW ME17.2.4BMW MOTORRAD S SERIES S 1000 XR my2017 1.0L 121kW ME17.2.4BMW MOTORRAD F SERIES F 800 R/GT my2017 1.0L 66kW ME17.2.4BMW MOTORRAD R SERIES R 1200 GS my2017 1.0L 92kW ME17.2.4BOSCH MEVD17.8.4 TC1797 BMW PetrolNEW – plugin 1065 – BMW 3 SERIES F30/F31/F35 320i 2.0L L4 16V TURBO 135kW MEVD17.8.4BMW 5 SERIES F10/F11/F18 520i 2.0L L4 16V TURBO 135kW MEVD17.8.4BMW 5 SERIES F10/F11/F18 525i 2.0L L4 16V TURBO 160kW MEVD17.8.4ADD : 04 - INFINEON TRICORE BOSCH MEDC17 TPROT2/4/7BOSCH MED17.0.7 TC1782 FORD PetrolNEW – plugin 1064 – FORD FIESTA 7 1.0L 12V Ecoboost 74kW MED17.0.7ADD: 23 - INFINEON TRICORE BOSCH MEDC17 GPT VAGBOSCH ME17.5.22 TC1724 VAG PetrolNEW – plugin 1039 – VOLKSWAGEN GOLF 7 1.6L 8V MPI 81kW ME17.5.22VOLKSWAGEN GRAN LAVIDA 1.6L 8V MPI 81kW ME17.5.22VOLKSWAGEN POLO 5 (6R, 6C) 1.6L 8V MPI 81kW ME17.5.22VOLKSWAGEN TOURAN 1.6L 8V MPI 81kW ME17.5.22SKODA OCTAVIA (5E) 1.6L 8V MPI 81kW ME17.5.22ADD: 28 - INFINEON TRICORE BOSCH MEDC17 GPT FORDBOSCH EDC17CP05 TC1797 FORD DieselNEW – plugin 1042 – FORD F250 6.7L V8 32V TD SUPERDUTY 287kW EDC17CP05FORD F350 6.7L V8 32V TD SUPERDUTY 224kW EDC17CP05FORD F250/F350 6.7L V8 32V TD SUPERDUTY 298kW EDC17CP05FORD F250/F350 6.7L V8 32V TD SUPERDUTY 328kW EDC17CP05Important: F34NTA15 flat cable is required to operate in GPT modeNEW: 61 - INFINEON TRICORE BOSCH EDC17 TPROT13 VM MOTORIBOSCH EDC17C49 TC1797 AEBI-SCHMIDT DieselNEW – plugin 1070 – AEBI-SCHMIDT MT750 4.5L V6 115kW EDC17C49ADD: 46 - INFINEON TRICORE CONTINENTAL ACM_MCM MEB TRUCK CAN LINETEMIC ACM2.1/AT25256 TC1796 ACM MERCEDES TRUCKNEW – plugin 1029 – ACM MERCEDES TRUCKWARNING: in order to communicate with this ECU ACM2.1/AT25256 using the plugin 1029 it is required the new cable F34NTA20F34NTA20ADD: 46 - INFINEON TRICORE CONTINENTAL ACM_MCM MEB TRUCK CAN LINECONTINENTAL-SIEMENS-VDO HDEP MCM2.1 TC1797 MERCEDES TRUCK E6 DieselNEW – plugin 1030 – MERCEDES TRUCK EURO6PONSEE FORWARDERS EURO6CLAAS JAGUAR EURO6FENDT KATANA 65 EURO6WARNING: in order to communicate with this ECU HDEP MCM2.1 using the plugin 1030 it is required the new cable F34NTA19F34NTA19ADD: 50 - INFINEON TRICORE SIEMENS SSM VAGCONTINENTAL-SIEMENS-VDO Simos18.X TC1791_384/TC1793_384 VAG PetrolNEW – plugin 830 –AUDI A1 (8X) 1.8L 16V TFSI 141kW SIMOS18.XAUDI A3 (8V) 1.8L 16V TFSI 132kW SIMOS18.XAUDI A3 (8V) 2.0L 16V TFSI 162kW SIMOS18.XAUDI A4 (B8-B9) 2.0L 16V TFSI 132-140-165-185kW SIMOS18.XAUDI A5 (8F/8T) 2.0L 16V TFSI 165kW SIMOS18.XAUDI A6 (C7) 1.8L 16V TFSI 140kW SIMOS18.XAUDI A6 (C7) 2.0L 16V TFSI 183-185kW SIMOS18.XAUDI A7 (4G) 1.8L 16V TFSI 140kW SIMOS18.XAUDI A7 (4G) 2.0L 16V TFSI 140-162-183-185kW SIMOS18.XAUDI Q3 (8U) 2.0L 16V TFSI 132-162kW SIMOS18.XAUDI Q5 (8RB) 2.0L 16V TFSI 132-162kW SIMOS18.XAUDI Q7 (4M) 2.0L 16V TFSI 185kW SIMOS18.XAUDI S1 (8X) 2.0L 16V TFSI 170kW SIMOS18.XAUDI S3 (8V) 2.0L 16V TFSI 205-210-220kW SIMOS18.XAUDI TT (FV) 1.8L 16V TFSI 132kW SIMOS18.XAUDI TT (FV) 2.0L 16V TFSI 161-169-210-228kW SIMOS18.XSEAT LEON (5F) 1.8L 16V TSI-TFSI 132kW SIMOS18.XSEAT LEON (5F) 2.0L 16V TSI CUPRA 195kW SIMOS18.XSKODA OCTAVIA (5E) 1.8L 16V TSI-TFSI 132kW SIMOS18.XSKODA OCTAVIA (5E) 2.0L 16V TSI RS-GTI 162-169kW SIMOS18.XSKODA SUPERB (3V) 1.8L 16V TSI-TFSI 132kW SIMOS18.XVOLKSWAGEN EOS (1F8) 2.0L 16V TFSI 162kW SIMOS18.XVOLKSWAGEN BEETLE (A5)/JETTA 6-7 1.8L 16V TFSI 125kW SIMOS18.XVOLKSWAGEN BEETLE (A5)/JETTA 6 2.0L 16V TFSI 154-155-162kW SIMOS18.XVOLKSWAGEN GOLF 7 1.8L 16V TFSI 132kW SIMOS18.XVOLKSWAGEN GOLF 7 2.0L 16V TFSI 162-205kW SIMOS18.XVOLKSWAGEN GOLF 7 2.0L 16V GTI 155-162-169-194kW SIMOS18.XVOLKSWAGEN GOLF 7 2.0L 16V R 213-220kW SIMOS18.XVOLKSWAGEN LAMANDO 1.8L 16V TSI 132kW SIMOS18.XVOLKSWAGEN LAMANDO 2.0L 16V TFSI 161kW SIMOS18.XVOLKSWAGEN PASSAT (B7-B8-B9) 1.8L 16V TFSI 125-132kW SIMOS18.XVOLKSWAGEN PASSAT (B8-B9) 2.0L 16V TFSI 162kW SIMOS18.XVOLKSWAGEN POLO (6C) 1.8L 16V TSI-GTI 141kW SIMOS18.XVOLKSWAGEN SCIROCCO 3 2.0L 16V TFSI-GTS-WRC 132-162kW SIMOS18.XVOLKSWAGEN TOURAN 1.8L 16V TSI 132kW SIMOS18.XPORSCHE MACAN (95B) 2.0L 16V TFSI 185kW SIMOS18.XCONTINENTAL-SIEMENS-VDO Simos12.X TC1797 VAG PetrolNEW – plugin 1067 –AUDI A3 (8V-8P) 1.8L 16V FSI-TFSI 162kW SIMOS12.XAUDI A4 (B8) 1.8L 16V TFSI 125kW SIMOS12.XAUDI A4 (B8) 2.0L 16V TFSI 165kW SIMOS12.XAUDI A5 (8F/8T) 1.8L 16V TFSI 106-125-130kW SIMOS12.XAUDI A5 (8F/8T) 2.0L 16V TFSI 165-169kW SIMOS12.XAUDI A7 (4G) 2.0L 16V TFSI 165kW SIMOS12.XAUDI Q5 (8RB) 2.0L 16V TFSI 132-165-169kW SIMOS12.XAUDI S3 (8P) 2.0L 16V TFSI 205-210-220kW SIMOS12.XAUDI TT (8J) 1.8L 16V FSI 162kW SIMOS12.XAUDI TT (FV) 1.8L 16V TSI 162kW SIMOS12.XAUDI TT (8J) 2.0L 16V TFSI 210-228kW SIMOS12.XImportant: F34NTA18 flat cable is required to operate in SSM modeMOTOROLA MPC55XX CPUs:ADD : 06 - MOTOROLA MPC55XX JTAGCONTINENTAL-SIEMENS-VDO CM2250 MPC5566 PETERBILT DieselNEW – plugin 1028 – PETERBILT 386 15.0L ISX15 298kW CM2250ADD : 43 - MOTOROLA MPC55XX BAMCONTINENTAL-SIEMENS-VDO MPC5534 ACM VOLVONEW – plugin 1041 – VOLVO WHEEL LOADERS ACMRENESAS SH7050 CPUs:ADD : 07 - RENESAS SH7050DELPHI DCM3.7AP SH72543R CASE/DOOSAN/NEW HOLLAND DieselNEW - plugin 1034 – CASE FARMALL 55 C CVT 2.2L 39.5kW DCM3.7APMITSUBISHI MH7XXX/MH8XXX CPUs:ADD : 08 – MITSUBISHI MH7XXX/8XXXMITSUBISHI F8T86571 MH8115F YAMAHA PetrolNEW – plugin 1033 – YAMAHA ATV WOLVERINE X4 0.85L 50kW F8T86571MITSUBISHI E6T32xxx MH8102F MITSUBISHI PetrolNEW – plugin 1038 – MITSUBISHI PAJERO V60 3.5L V6 24V 150kW E6T32xxxMITSUBISHI 33920-98J80 MH8115F SUZUKI PetrolNEW – plugin 1040 – SUZUKI MARINE DF 300 3.6L V6 220kW 33920-98J80NEC CPUs:ADD : 36 - NEC NBDDENSO 270536-6941 NEC 76F0040GD TOYOTA PetrolNEW - plugin 1031 – TOYOTA RAV4 (A2) 2.0L 16V 4L 110kW 270536-6941DENSO 275036-7581 NEC 76F0085 TOYOTA PetrolNEW - plugin 1068 – TOYOTA HILUX/VIGO (AN120-AN130) 2.7L 16V L4 VVT-i DOHC FLEX 120kW 275036-7581 FREESCALE ST MPC56XX SPC56X CPUs:ADD : 37 – FREESCALE ST MPC56XX SPC56XCONTINENTAL-SIEMENS-VDO CM2350 MPC5674F GENERIC CUMMINS ENGINE DieselNEW – plugin 638 – GENERIC CUMMINS ENGINE CM2350AGENERIC CUMMINS ENGINE CM2350BDelphi DCM6.2AP MPC5674F HYUNDAI DieselNEW – plugin 1024 – HYUNDAI i20 Mk2 1.1L 12V CRDi 55kW DCM6.2APKIA RIO/K2 (YB) 1.1L 12V CRDi 55kW DCM6.2APADD : 44 – FREESCALE MPC56XX BAMDelphi DCM6.2AP MPC5674F HYUNDAI DieselNEW - plugin 1063 – HYUNDAI i20 Mk2 1.1L CRDi 55kW DCK6.2APKIA RIO/K2 (YB) 1.1L 12V CRDi 55kW DCM6.2APNEW PLUG-IN LISTPLGID ECU Brand ECU Model Brand Connection Type Micro Flash Ext Category638 Continental-Siemens-VDO CM2350Generic CumminsEngine37 - FREESCALE/STMPC56XX/SPC56X JTAG MPC5674F TRUCK830 Continental SIMOS18.x VAG 50 - INFINEON TRICORE SIEMENSSSM VAG TC1791_384/TC1793_384 CAR951 BOSCH REXROTH SRC 9-34 GEARBOXCVT AGCO03 - INFINEON TRICORE NO PSWCANLINE TC1796 M58BW032FB TRACTOR1024 Delphi DCM6.2AP Hyundai 37 - FREESCALE/STMPC56XX/SPC56X JTAG MPC5674F CAR1028 Continental-Siemens-VDO CM2250 Peterbilt 06 - MOTOROLA MPC5500 JTAG MPC5566 TRUCK1029 Temic ACM2.1/AT25256 MEB Truck 46 - INFINEON TRICORE TEMIC MCMACM MERCEDES OBD TC1796 TRUCK1030 Continental-Siemens-VDO HDEP MCM2.1 MEB Truck46 - INFINEON TRICORE TEMIC MCMACM MERCEDES OBD TC1797 TRUCK1031 Denso 275036-6941 Toyota 36 - NEC NBD 76F0040GD CAR 1032 Bosch DCU15 DAF 02 - STMICROELECTRONICS ST10 ST10C167 AM29F400BT TRUCK 1033 Mitsubishi F8T86571 Yamaha 08 - MITSUBISHI MH7XXX/MH8XXX MH8115F BIKE1034 Delphi DCM3.7AP Case/Doosan/NewHolland 07 - RENESAS SH7050 SH72543RTRUCKTRACTOR1035 Bosch ME17.9.71 PSA 03 - INFINEON TRICORE NO PSWCANLINE TC1724 CAR1037 Bosch EDC7C1 International 01 - MOTOROLA MPC500 MPC555/MPC556 TRUCK 1038 Mitsubishi E6T32xxx Mitsubishi 08 - MITSUBISHI MH7XXX/MH8XXX MH8102F CAR1039 Bosch ME17.5.22 VAG 23 - INFINEON TRICORE BOSCHMEDC17 GPT VAG TC1724 CAR1040 Mitsubishi 33920-98J80 Suzuki 08 - MITSUBISHI MH7XXX/MH8XXX MH8102F MARINE1041 Continental-Siemens-VDO ACM Volvo 43 - MOTOROLA MPC55XX BAM MPC5534 TRUCK1042 Bosch EDC17CP05 Ford 28 - INFINEON TRICORE BOSCHMEDC17 GPT FORD TC1797 CAR1057 BOSCH ME17.2.4/BMS-MP BMW 03 - INFINEON TRICORE NO PSWCANLINE TC1791/TC1793 BIKE1063 Delphi DCM6.2AP Hyundai 44 - FREESCALE MPC56XX BAM MPC5674F CAR1064 Bosch MED17.0.7 Ford 04 - INFINEON TRICORE BOSCHMEDC17 TPROT2/4/7 TC1782 CAR1065 Bosch MEVD17.8.4 BMW 03 - INFINEON TRICORE NO PSWCANLINE TC1797 CAR1067 Continental SIMOS12.x VAG 50 - INFINEON TRICORE SIEMENSSSM VAG TC1797 CAR1068 Denso 275036-7581 Toyota 36 - NEC NBD 76F0085 CAR1070 BOSCH EDC17C49 AEBI SCMIDT 61 – INFINEON TRICORE BOSCHEDC17 TPROT13 VM MOTORI TC1797 TRUCKDIMSPORT S.r.l.。

720024•Breaking capacityAgency information• CE• Designed and tested to BS88 part 4• IEC 60269 Part 4•**************************************recognition status•CCC for ET , FE, EET , FEE, FM and FMMFeatures and benefits•Excellent cycling capability and DC performance•Low arc voltage and low energy let-through (I 2t)•Low watts lossTypical applications• DC common bus • DC drives• Power converters/rectifiers •Reduced voltage startersCT, ET, FE, EET, FEE, FM, FMM, MT, MMT BS88 High speed fusesCatalogue symbol• (amps)CT (6 to 20 A)• (amps)ET (25 to 80 A)• (amps)FE (35 to 100 A)• (amps)EET (90 to 160 A)• (amps)FEE (100 to 200 A)• (amps)FM (180 to 350 A)• (amps)FMM (400 to 700 A)• (amps)MT (160 to 355 A)•(amps)MMT (180 to 710 A)DescriptionBS88 style high speed fuse links.Technical data•Rated voltage•Rated current • 6 - 710 A •Operating class: aRCatalogue numbersIECULV a.c.V d.c.V a.c.V d.c.CT, 690500700500ET 690500700500FE 690500700500EET 690500700700FEE 690500700500FM 690450700500FMM 690450--MT 690350700-MMT690350700-Catalogue numbersIECUL RMS SymDC at rated voltageRMS SymDC at rated voltageCT 90 kA 40 kA at 500 V d.c.200 kA 50 kA at 500 V d.c.ET 200 kA50 kA at 500 V d.c.200 kA50 kA at 500 V d.c.FE EET FEE FM 200 kA 40 kA at 450 V d.c.200 kA 50 kA at 500 V d.c.FMM 200 kA 40 kA at 450 V d.c.200 kA -MT 200 kA 40 kA at 350 V d.c.200 kA -MMT200 kA200 kA-BUSSMANNSERIES2Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON Carton quantity• LCT and CT : 20 per carton • LET , ET and FE: 10 per carton • EET , FEE: 5 per carton•LMT , LMMT , FM, FMM, MT and MMT : 1 per cartonCarton weight• LCT : 0.11 kg • LET : 0.31 kg • LMT : 0.18 kg • LMMT : 0.37 kg • CT : 0.16 kg • ET and FE: 0.42 kg• EET , FEE and FMM: 0.45 kg • FM: 0.24 kg • MT : 0.26 kg •MMT: 0.47 kgElectrical characteristicsT otal clearing I 2tThe total clearing I 2t at rated voltage and at a power factor of 15 percent are given in the electrical characteristics. For other volt-ages, the clearing I 2t is found by multiplying by correction factor, K, given as a function of applied working voltage, E g , (RMS).Arc voltageThis curve gives the peak arc voltage, U L , which may appear across the fuse during its operation as a function of the applied working voltage, E g , (RMS) at a power factor of 15 percent.15001000500200400600660E gU L1)2)Watts lossesWatts loss at rated current is given in the electrical characteristics. The curve allows the calculation of the watts losses at loadcurrents lower than the rated current. The correction factor, K p , is given as a function of the RMS load current, I b , in percent of the rated current.K p 1.00.80.40.50.60.30.20.130405060708090100%I b2003004005006006600.20.40.60.81.01.21.41.61)2)E gK1) CT, ET, EET, FE, FEE, MT, MMT 2) FM, FMM1) CT2) ET, FE, EET, FEE, FM, FMM3Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON Technical data - CT, ET, FE, EET, FEECatalogue numbersRated voltageV a.c. / V d.c.Rated current RMS-AmpsI 2t (A 2 Sec)Watts loss**Pre-arcClearing at 415 VClearing at 660 V**Watts loss provided at rated current4Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON **Watts loss provided at rated currentTechnical data - FM, FMM, MT and MMTCatalogue Rated voltageRated current RMS-I 2t (A 2 Sec)Watts Clearing Clearing5Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON CTET , FE up to 63 ADimensions - mmIndicator (optional)Indicator (optional)11.9Indicator (optional)EET , FEEFM, MTFMM, MMT‘A’Indicator (optional)Indicator (optional)Dimension in mm 1 mm = 0.0394”1”= 25.4 mmET , FE greater than 63 AIndicator (optional)6Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON Cut-off curvesProspective current (SYM R.M.S. Amps)C u t -o f f c u r r e n t (A m p s p e a k )CT , ET , EET, MT and MMTProspective current (SYM R.M.S. Amps)C u t -o f f c u r r e n t (a m p s p e a k )FE, FM7Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON Cut-off curvesProspective current (SYM. R.M.S. Amps)C u t -o f f c u r r e n t (a m p s p e a k )FEE and FMM8Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON Time-current curvesProspective current in amperes r.m.s.V i r t u a l p r e -a r c i n g t i m eCT, ETFE, FM9Technical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEATON Time-current curve - nominal meltProspective current in amperes r.m.s.V i r t u a l p r e -a r c i n g t i m eEET , MTProspective current in amperes r.m.s.V i r t u a l p r e -a r c i n g t i m eFEE, FMMTechnical Data 720024Effective June 2020CT , E T , F E, E ET , F EE, F M, F MM, M T , M MT B S88 H igh s peed f usesEatonEMEA Headquarters Route de la Longeraie 71110 Morges, Switzerland Eaton Electrical Products Limited Unit 1, Hawker Business Park Melton RoadBurton-on-the-WoldsLeicestershire, LE12 5TH United Kingdom © 2020 EatonAll Rights Reserved PDF OnlyPublication No. 720024 June 2020Eaton is a registered trademark.All other trademarks are property of their respective owners.Time-current curve - nominal meltProspective current in amperes r.m.s.V i r t u a l p r e -a r c i n g t i m eMMTChanges to the products, to the information contained in this document, and to prices are reserved; so are errors and omissions. Only order confirmations and technical documentation by Eaton is binding. Photos and pictures also do not warrant a specific layout or functionality. Their use in whatever form is subject to prior approval by Eaton. The same applies to Trademarks (especially Eaton, Moeller, and Cutler-Hammer). The Terms and Conditions of Eaton apply, as referenced on Eaton Internet pages and Eaton order confirmations.。

巴斯夫宣布庞巴迪为蒙特利尔地铁制造的468辆新一代地铁客车将采用巴数特作为顶棚吸音隔热材料。

庞巴迪这次选用的巴数特部件由泡沫生产商Artik/OEM公司提供。

三聚氰胺甲醛树脂（melamine-formaldehyde resin），三聚氰胺与甲醛反映所取得的聚合物。

又称蜜胺甲醛树脂、蜜胺树脂。

英文缩写MF。

加工成型时发生交联反映，制品为不熔的热固性树脂。

习惯上常把它与脲醛树脂统称为氨基树脂。

固化后的三聚氰胺甲醛树脂无色透明，在滚水中稳定，乃至可以在150℃利用，且具有自熄性、抗电弧性和良好的力学性能。

三聚氰胺树脂是简称。

三聚氰胺甲醛树脂增硬耐刮填料，纳米氧化铝XZ-L290显白色疏松粉末状态，晶型是γ-Al2O3。

粒径是20nm；比表面积≥230m2/g。

粒度散布均匀、纯度高、极好分散，其比表面高，具有耐高温的惰性，高活性，属活性氧化铝；多孔性；硬度高、尺寸稳定性好，XZ-L290可普遍应用于各类塑料、橡胶、陶瓷、耐火材料等产品的补强增韧，特别是提高陶瓷的致密性、光洁度、冷热疲劳性、断裂韧性、抗蠕变性能和高分子材料产品的耐磨性能尤其显著。

XZ-L290极好分散，在溶剂水里面；溶剂乙醇、丙醇、丙二醇、异丙醇、、丙酮、丁酮、苯、二甲苯内，不需加分散剂，搅拌搅拌即可以充分的分散均匀。

在环氧树脂，塑料等中，极好添加使用。

用量：按照用户配方计量添加和利用。

蜜胺树脂加无机填料后制成模塑制品，色彩丰硕，大多用于装饰板、餐具、日用品。

餐具外观酷似磁器或象牙，不易脆裂又适宜机械洗涤。

蜜胺树脂与脲醛树脂混合可配制成胶粘剂，用于制造层压材料。

用丁醇改性的密胺树脂可作涂料和热固性漆。

三聚氰胺树脂胶的特点具有较大的化学活性很高的胶接强度耐水能力高能经历三小时以上的滚水热稳定性高低温固化能力较强耐磨性好固化快不需加固化剂三聚氰胺成品比脲醛树脂成品硬度和耐磨性好对化学药物的抵抗能力电绝缘性能等都好。

可是固化后胶层容易破裂不宜单独利用应用改性的三聚氰胺树脂胶贮存期短易变质制成粉状可延长贮存期限改性三聚氰胺树脂价钱较高用于制造塑料贴面板普遍用于家具车辆建筑等方面巴数特泡沫的密度仅为9千克/立方米，利用巴数特代替可将车顶隔音隔热结构的重量减轻35%。

Version:0.6Page:30CUSTOMER APPROVAL SHEETCompany Name （請註明客戶別請註明客戶別）） MODEL H497TLB01.0CUSTOMER APPROVEDTitle : Name :□ APPROVAL FOR SPECIFICATIONS ONLY (Spec. Ver. )□ APPROVAL FOR SPECIFICATIONS AND ES SAMPLE (Spec. Ver. ) □ APPROVAL FOR SPECIFICATIONS AND CS SAMPLE (Spec. Ver. ) □CUSTOMER REMARK :1 Li-Hsin Rd. 2. Science-Based Industrial ParkHsinchu 300, Taiwan, R.O.C.Tel: +886-3-500-8899 Fax: +886-3-577-2730Doc. version : 0.6Total pages : 30Date : 2014/1/08Product Specification5.0" COLOR AMOLED MODULEMODEL NAME: H497TLB01.0 AUO Product P/N: 95.04H60.000< >Preliminary Specification◆< >Final SpecificationNote: The content of this specification is subject to change.© 2013 AU Optronics All Rights Reserved, Do Not Copy.ContentsA.General Specification (4)1.Physical Specifications (4)2.Module Block Diagram (4)3.Driver IC Block Diagram (5)B.Electrical Specifications (6)1.Main FPC Pin assignment — AMOLED Panel Input/Output Signal Interface (6)2.Absolute maximum ratings (7)C.Electrical Characteristics (8)1.Typical Operating Conditions (8)2.Display Current Consumption (8)3.T ouch Panel Current Consumption (9)D.AC Characteristics (10)1.MIPI Interface Characteristics (10)2.Display RESET Timing Characteristics (12)3.T ouch Panel I2C Timing Characteristics (13)4.T ouch Panel RESET Timing Characteristics (14)E.Recommended Operating Sequence (15)1.State Diagram (15)2.Display Power on / off Sequence (15)3.T ouch Panel Power on Sequence (17)F.Display and Touch Initial code (18)1.Display Timing and Initial code and (18)2.T ouch Panel IIC address (19)G.Specifications (22)H.Reliability Test Items (27)I.Packing (28)J.Outline Demension (Tentative) (29)A. General Specification3. Driver IC Block DiagramB. Electrical Specifications1. Main FPC Pin assignment — AMOLED Panel Input/Output Signal Interface Recommended connector: FH26-39S-0.3SHW (Hirose)2. Absolute maximum ratingsItem Symbol Min. Max. Unit Remark Power IC Power supply VBAT - +4.5 VDigital Power supply VDDI -0.3 +2.0 VAnalog Power supply VCI -0.3 +4.0 VTouch analog power supply TP_VCC -0.3 +4.0 VTouch digital power supply TP_VDDI -0.3 +2.0 VNote : If the module exceeds the absolute maximum ratings, it may be damaged permanently. Also, if the module operates with the absolute maximum ratings for a long time, the reliability may drop.C. Electrical CharacteristicsNote 1: VBAT input 2.9V, I BAT maximum current enhance to 740mA. Note 2: Testing in white pattern. MIPI-DSI frame rate 60Hz viedo mode. Note 3: Display off. RESX = high3. Touch Panel Current ConsumptionModeSymbol ConditionTyp. Unit RemarkI TP_VDDI 13 mA(Active – 1finger) I TP_VCC 12.5 mA I TP_VDDI 18.5 mA(Active – 10fingers) I TP_VCC 12.5 mA I TP_VDDI 0.4 mA Normal Operation I TP_VCC 0.35 mA I TP_VDDI 9 µA Sensor Sleep (Deep sleep) I TP_VCCTP_VDDI = 1.8V TP_VCC=3.1VTouch controller configured at 100 Hz report rate and 30 ms doze interval (24Rx x 14Tx)I TP_VDDI not include VBUS8µAVersion Page:0.6 10/30D. AC Characteristics1. MIPI Interface CharacteristicsHS Data Transmission BurstHS clock transmissionClock Lane CLKp/CLKnDisconnect Terminator TCLK-TERM-ENTCLK-POSTVIH(min) VIL(max)TCLK-TRAILTHS-EXITTLPXTCLK-PREPARETCLK-ZEROTCLK-PREData Lane Dp/DnDisconnect TerminatorTLPXTHS-PREPAREVIH(min) VIL(max)TD-TERM-ENTurnaround Procedure10ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page: Timing Parameters Symbol TCLK-POST Description Time that the transmitter continues to send HS clock after the last associated Data Lane has transitioned to LP Mode. Interval is defined as the period from the end ofTRAIL0.6 11/30Min 60ns + 52*UITypMaxUnit nsTHS-to the beginning of TCLK-TRAIL . 60 nsTCLK-TRAILTime that the transmitter drives the HS-0 state after the last payload clock bit of a HS transmission burst.THS-EXITTime that the transmitter drives LP-11 following a HS burst.300nsTCLK-TERM-ENTime for the Clock Lane receiver to enable the HS line termination, starting from the time point when Dn crosses VIL,MAX .Time for Dn to reachEN38nsVTERM-TCLK-PREPARETime that the transmitter drives the Clock Lane LP-00 Line state immediately before the HS-0 Line state starting the HS transmission.3895nsTCLK-PRETime that the HS clock shall be driven by the transmitter prior to any associated Data Lane beginning the transition from LP to HS mode.8UITCLK-PREPARE + TCLK-ZERO TD-TERM-ENTCLK-PREPARE + time that the transmitter drives the HS-0 state prior to starting the Clock. Time for the Data Lane receiver to enable the HS line termination, starting from the time point when Dn crosses VIL,MAX .300nsTime for Dn to reachEN35 ns +4*UIVTERM-THS-PREPARETime that the transmitter drives the Data Lane LP-00 Line state immediately before the HS-0 Line state starting the HS transmission40ns + 4*UI85 ns + 6*UInsTHS-PREPARE + THS-ZEROTHS-PREPARE + time that the transmitter drives the HS-0 state prior to transmitting the Sync sequence.145ns + 10*UInsTHS-TRAILTime that the transmitter drives the flipped differential state after last payload data bit of a HS transmission burst60ns + 4*UInsTLPX(M)Transmitted length of any Low-Power state1150150nsALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page: period of MCU to display module TTA-SURE(M) Time that the display module waits after the LP-10 state before transmitting the Bridge state (LP-00) during a Link Turnaround. TLPX(D) Transmitted length of any Low-Power state period of display module to MCU TTA-GET(D) Time that the display module drives the Bridge state (LP-00) after accepting control during a Link Turnaround. TTA-GO(D) Time that the display module drives the Bridge state (LP-00) before releasing control during a Link Turnaround. TTA-SURE(D) Time that the MPU waits after the LP-10 state before transmitting the Bridge state (LP-00) during a Link Turnaround. TLPX(D) 2*TLPX(D) 4*TLPX(D) 5*TLPX(D) 50 150 TLPX(M) 2*TLPX(M)0.6 12/30nsnsnsnsns2.Display RESET Timing CharacteristicsReset input timingShorter than 15µ s t RESW!RES RESXtRESTInternal StatusNormal OperationResettingInitial Cond ition (D efault for H/W reset)IOVCC=1.65 to 3.6V, VCI=2.5 to 3.6V, AGND=DGND=0V, Ta=-40 to 85℃Note When reset applied during Sleep in mode When reset applied during Sleep out mode Unit µs ms msTiming Parameters Symbol tRESW Parameter *1) Reset low pulse width Related Pins RESX tREST *2) Reset complete time 120 MIN 15 TYP MAX 5Note 1. Spike due to an electrostatic discharge on RESX line does not cause irregular system reset according to the table below. RESX Pulse Action Reset Rejected Shorter than 5µs Reset Longer than 15µs Reset starts Between 5µs and (It depends on voltage and temperature condition.) 15µs Note 2. During the resetting period, the display will be blanked (The display is entering blanking12ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 13/30sequence, which maximum time is 120 ms, when Reset Starts in Sleep Out –mode. The display remains the blank state in Sleep In –mode) and then return to Default condition for H/W reset. Note 3. During Reset Complete Time, data in OTP will be latched to internal register during this period. This loading is done every time when there is H/W reset complete time (tREST) within 5ms after a rising edge of RESX. Note 4. Spike Rejection also applies during a valid reset pulse as shown below:Note 5. It is necessary to wait 5msec after releasing RESX before sending commands. Also Sleep Out command cannot be sent for 120msec.3.Touch Panel I2C Timing CharacteristicsI2C timingTiming Parameters Symbol fSCL tCSTR tHD;STA tLOW tHIGH tSU;STA tHD;DAT tHD;DAT O tSU;DAT tr tf tSU:STO Parameter SCL clock frequency Stretch time Hold time (repeated) START condition. After this period, the first clock pulse is generated. LOW period of the SCL clock HIGH period of the SCL clock Set-up time for a repeated START condition Data hold time Data out hold time Data set-up time Rise time of both SDA and SCL signals Fall time of both SDA and SCL signals Set-up time for STOP condition Standard- Mode Host Min. 4.0 4.7 4.0 4.7 0 250 4.013ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Fast-Mode Host Min. 0.6 1.3 0.6 0.6 0 100 20 + 0.1 Cb 20 + 0.1 Cb 0.6 Max. 400 25 0.9 0 300 300 -Unit kHz µs µs µs µs µs µs µs ns ns ns µsMax. 100 25 3.45 0 1000 3000 -Version Page: tBUF Cb VnL Bus free time between a STOP and START condition Capacitive load for each bus line Noise margin at the LOW level for each connected device (including hysteresis) Noise margin at the HIGH level for each connected device (including hysteresis) 4.7 0.1 VBUS 400 1.3 0.1 VBUS 4000.6 14/30 µs pF VVnH0.2 VBUS-0.2 VBUS-V4.Touch Panel RESET Timing CharacteristicsReset input timingTiming Parameters Symbol Treset (TRESX pin) Tbl_start Tbl_active Treboot Min. 100 Max. 2 11 16 Unit ns ms ms ms14ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 15/30E. Recommended Operating Sequence1. State Diagram2.Display Power on / off Sequence15ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 16/3016ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 17/303.Touch Panel Power on SequenceSymbol Tpowerup Tbl_start (bootloader start) Tbl_active (bootloader active)Min. -Max. 60 46 11Unit ms ms ms17ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 18/30F. Display and Touch Initial codeDisplay Initial code18ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 19/301. Touch Panel IIC address Reading Manufacturer ID IIC address (7 bits) = 0x20 Although a host would not normally need to read the Manufacturer ID register provided by the RMI4 interface, reading this register is a good first step in verifying that the host and：Touch Controller are communicating The Manufacturer ID register belongs to the group of Function $01 query registers. The addresses of these registers vary between different Synaptics RMI4-over-I2C Touch Controllers. The Manufacturer ID register always returns data $01. Figure A gives an example of the resulting bus transaction, in the format typically used to describe I2C transactions. The symbol meanings are listed in Table A. The shaded areas indicate bus activity by the Touch Controller. In this example, assume the slave address of the device is $20, with the Manufacturer ID register at $E1.7 bits S Slave Address $20 1 bit 8 bits 7 bits 1 bit 8 bits：Wr 0ARegister Address $E1ASrSlave Address $20Rd 1AData $01NPFigure A. Read Manufacturer ID command Tabel A. Symbol S Sr Meaning I2C bus Start condition. This is a falling edge on SDA while SCL is high. Repeated Start condition. Same as S. Note that hosts that cannot generate Repeated Starts may use a Stop condition (P) followed by a another Start (S) instead. P A I2C Stop condition. This is a rising edge on SDA while SCL is high. I2C acknowledge (ACK). The data receiver pulls SDA low during a high pulse on SCL driven by the transmitter. N I2C not acknowledge (NACK). The data receiver lets SDA remain high during a high pulse on SCL driven by the transmitter. Wr Rd ‘Write’ bit. This has a value of 0.Using register A. Page SelectAddr 0x00FF Name Page Select Set Page 0=0x0019ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.：‘Read’ bit. This has a value of 1.Bit7Bit6Bit5Bit4Bit3Bit2Bit1Bit0Access WPageDescriptionVersion Page:0.6 20/30B. Communicating Address=0x0006 is used to read coordinate. It must continue to read 10 fingers data every time：Page 0x00 RegistersAddr Name F12_2D_DATA01(00)/00 Object Type and Status 0 F12_2D_DATA01(00)/01 Object Data 0 F12_2D_DATA01(00)/02 Object Data 0 F12_2D_DATA01(00)/03 0x0006 Object Data 0 F12_2D_DATA01(00)/04 Object Data 0 F12_2D_DATA01(00)/05 Object Data 0 F12_2D_DATA01(00)/06 Object Data 0 F12_2D_DATA01(00)/07 Object Data 0 ○ 0x00 = No object ○ 0x01 = Finger ○ 0x02 = Stylus ○ 0x03 = Palm ○ 0x04 = Unclassified ○ 0x05 = Reserved ○ 0x06 = Gloved Finger Description X and Y position data (MSB) These registers report the most-significant bits of the absolute X and Y position data. X and Y position data (LSB) This register contains the least-significant bits for both the X and Y absolute position information. Z This field reports the amount of finger contact or finger signal strength, which often serves as a20ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Bit7Bit6Bit5Bit4Bit3Bit2Bit1Bit0Access RWObject Type and StatusX LSB X MSB Y LSB Y MSB Z Wx Wy Object Type and Status (F12_2D_Data1(N)/0)RW RW RW RW RW RW RWVersion Page:0.6 21/30rough estimate of finger pressure. When Z = 0, the position cannot be measured and the X and Y Position registers are left unchanged. By default Z is taken as 0 whenever the device’s built-in algorithms determine that no finger is present. Wx, Wy These fields report the estimated finger width as an unsigned integer, where 0 represents an extremely narrow finger and 15 represents an extremely wide contact such as a palm laid flat on the sensor. The ratio of Wx and Wy provides an estimate of the finger contact aspect ratio.Display Timing:Back PorchVSync Active Area Front Porch 16 1280 11 521ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 22/303 SpecificationsItem Optical Characteristic LCM ( w/ Cover Lens ) Contrast ratio Abbr. Brightness Wx Wy @25deg Top Viewing angle CR>1600 Bottom Left Right Brightness Uniformity Optical Switching Time Red Red Color Green Green Blue Blue NTSC 250nits +25° B/W(Tr+Tf)/2 CIE1931 x CIE1931 y CIE1931 x CIE1931 y CIE1931 x CIE1931 y CIE x , y θ=30° CIE x Angular White Color Shifting θ=30° CIE y θ=60° CIE x θ=60° CIE y Life time Flicker Crosstalk Gamma 250nits Vertical γ T95 25C° Min. 225 0.28 0.29 10000 80° 80° 80° 80° 70% -0.645 0.295 0.186 0.661 0.090 0.025 80 -0.05 -0.05 -0.08 -0.07 100 --2.0 Typ. 250 0.30 0.31 -------0.675 0.325 0.236 0.711 0.130 0.065 100 -------2.2 Max. 275 0.32 0.33 ------1 0.705 0.355 0.286 0.761 0.170 0.105 -0.015 0.03 0.035 0.04 --30 5.0 2.4 hrs db % Note 10 Note 9 Note 11 ms Red Red Green Green Blue Blue % Note 8 deg deg deg deg Note 6 Note 4 Note 7 Note 5 Unit nits Note 3 Remark22ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 23/30Note 1: Ambient temperature =25 ±2℃ ℃.Note 2: To be measured in the dark room. Note 3: The brightness measurement shall be done at the center of the display with a full white image. The brightness shall meet the following spec, at 100% check.50cm |-------------------------------| 90°Note 4: Optical Switching Time: The optical switching time measurements should be performed at driven BLACK and driven WHITE at typ. brightness setting by the driving techniques specified. The luminance should be measured with the emitting display and the detector at θ=0° and ψ=90° . The rise time tr is the time between a 10% optically response of the display and a 90% optically response of the display. The fall time tf is the time between a 10% optically response of the display and a 90% optically response to the display. The response time is defined as the average of the rise time and the fall time.23ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 24/30Note 5: Definition of contrast ratio: Contrast ratio is calculated with the following formula: Contrast ratio (CR)= Photo detector output when OLED is at “White” Photo detector output when OLED is at “BlackNote 6: Uniformity. Refer to figure as belowNote 7: Definition of viewing angle :The optical performance is specified as the driver IC located at =270°24ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 25/30Note 8: The color chromaticity should be based on sample performance because new OLED material should be verified later. Note 9: Flicker The flicker level is defined using Fast Fourier Transformation (FTT) as follows:where fFFTC(n) is the nth FFT coefficient, and fFFTC(0) is the 0th FFT coefficient which is DC component. FS(Hz) is the flicker sensitivity as a function of frequency. The flicker level shall be measured with the test pattern in below. The gray leves of test pattern is 128.Note 10: Time to 95% Luminance To measure the burn-in effect, a test pattern with white background applied to the AMOLED display at 30% loading25ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 26/30Note 11: Cross-talk26ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 27/30G. Reliability Test ItemsCategory No. 1 2 3 Reliability (Environment) 4 5 6 7 Test items High Temp. Operation High Temp. Storage Low Temp. Operation Low Temp. Storage High Temp./Humi. Operation Thermal Shock Low Pressure Storage Ta= 60 Conditions Remark Ta: Ambient temperature. Non-operation℃ 168hrs 168hrs Ta= 70℃ 168hrs Ta= -20℃ 168hrs Ta= -30℃ 168hrs Ta= 40℃. 95% RH -30℃~70℃, Dwell for 30 min. 30 cycles.Condition: 40,000 ft, room temperature, 48hrs. Criterion: Normal performance after recovery time. Half Sine, 400G, duration time 2 ms, One shock for each surfaces,total 6 shocks 0.025G2/Hz, 10~500Hz Nominal 3.5Grms in each axis, 30 minutes each axisNon-operation Non-operation Non-operation8 9Shock Test Random Vibration TestNon-operation Non-operationReliability (Mechanical)10Sinusoidal Vibration Test0.5 octave / minutes sweep rate One sweep, 10 to 500Hz, all 3 axes (X, Y, Z) Non-operation Fixture used: Fasten the specimen to the vibration table Power is OFF Connector side: Bending FPC with 180° both clockwise and counterclockwise OLED side: Bending FPC with 180° both Non-operation clockwise and counterclockwise minimum 30 cycles for every side. Insert/Remove LCM FPC for 15 cycles. There is no degradation of OLED performance after this test. (LCM level)11FPC Bending12FPC connection insert/ Remove IEC 61000-4-2 Air Discharge ±8KV Contact Discharge ±4KV IEC 61000-4-213 ESD 14Air Discharge ±15KV Contact Discharge ±8KVThere is no OLED damage after this test. (System level) The resistance between FPC ground pin and metal frame should be less than 1 Ohm before/after all reliability testGrounding15Metal frame grounding27ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 28/30紙箱尺寸:546mm x 406mm x 278mm 棧板尺寸:1150mmx840mmx132mm 1set for 20 tray (8pcs) +1 tray(空) =160pcs moduleH. Packing5 layer x4 boxes =20 boxes28ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.Version Page:0.6 29/30I. Outline Demension (Tentative)29ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.。

2017年高考(589)安徽省皖智1号卷A10联盟2017年高考最后一卷安徽省皖智1号卷A10联盟2017年高考最后一卷语文试题巢湖一中合肥八中淮南二中六安一中南陵中学舒城中学太湖中学天长中学屯溪一中宣城中学本试卷分第卷（阅读题）和第卷（表达题）两部分，满分150分，考试时间150分钟。

请在答题卡上做卷。

第卷阅读题一、现代文阅读（一）论述类文本阅读（9分）阅读下面的文字，完成1～3题游牧文化是从事游牧生产的游牧部落、游牧民族和游牧族共同创造的文化，是一种以自然环境（草原）和生产方式（放养畜）、生活方式（逐水草而居）为基本条件的地域性文化，包括与游牧生活相适应的文学、艺术、宗教、哲学、风俗、习惯等具体要素。

北方游牧文化则是指历史上生活在中国北方和西北方广袤草原上的游牧民族所创造的文化。

对中国历史产生巨大、深远影响的北方草原上的族，唐前是匈奴族，唐后是蒙古族。

以匈奴为代表的北方游牧民族，居住在北方宽阔的草原上，不建城市，不从事农业生产，社会结构松散；与畜牧一同移，牧养着多种牲畜，逐水草迁徙；善于骑射，崇尚英雄；以肉、乳为食，衣动物皮毛。

与中原汉族相比，北方游牧民族规矩少、约束少、思想负担少、行政限制少，所以行动起来及时自如，效率高。

《汉书·匈奴传》又说：单于遣使遗汉书云：‘南有大汉，北有强胡。

胡者，天之骄子也，不为小礼以自烦。

’胡在汉代主要是指匈奴；汉以后，胡成为中原汉民族对北方草原上的游牧民族的统称。

胡人既自诩天之骄子，当然不会制订小礼，更不会用小礼作茧自缚、自寻烦恼。

其实，这正是北方广袤草原上的游牧民族的共同特点。

可以看出，虽然游牧文化与农耕文化都是建立在各自地理形态基础上的相对独立的地域性文化，但与固守土地、男耕女织、讲求人际关系的农耕文化不同，游牧文化的核心是人与自然的关系，畜、草场、牧人构成了游牧的基本条件。

北方游牧民族善于骑射，不断地游动、迁徙，与严峻的生存环境抗争，锻炼出了强健的体魄，培养了豪侠尚武的精神、粗犷豪放、坚韧顽强的民族个性。

MT-100Motorcycle Tracking DeviceUSER MANUALa c k i n g T h e W o r l d .co mGeneral NotesTrackingTheWorld offers this information as a service to its customers, to support application and engineering efforts that use the products designed by TrackingTheWorld. The information provided is based upon requirements specifically provided to TrackingTheWorld by the customers. TrackingTheWorld has not undertaken any independent search for additional relevant information, including any information that may be in the customer’s possession. Furthermore, system validation of this product designed by TrackingTheWorld within a larger electronic system remains the respon sibility of the customer or the customer’s system integrator. All specifications supplied herein are subject to change.CopyrightThis document contains proprietary technical information which is the property of TrackingTheWorld, copying of this document and giving it to others and the using or communication of the contents thereof, are forbidden without express authority. Offenders are liable to the payment of damages. All rights reserved in the event of grant of a patent or the registration of a utility model or design. All specification supplied herein are subject to change without notice at any time.Copyright © TrackingTheWorld 2016For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: ContentsContents (3)Table Index (4)Figure Index (5)1. Introduction (7)1.1. Reference (7)1.2. Terms and Abbreviations (7)2. Product Overview (8)2.1. Appearance (8)2.2. Parts List (8)2.3. Interface Definition (9)3. Getting Started (10)3.1. Installing a SIM Card (10)3.2. Switch the set on/off (10)3.3. Reset Key (11)3.4. USB connector (11)3.5. Power Connection (11)3.6. Ignition Detection (12)3.7. Digital Input (12)3.8. Analog Input (13)3.9. Digital Output (13)3.10. Relay Output (14)3.11. Device Status LED (15)For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: Table 1: MT-100 Protocol Reference (7)Table 2: Terms and Abbreviations (7)Table 3: Part List (8)Table 4: Description of MT-100 User Cable (9)Table 5: Electrical Characteristics of Ignition Detection (12)Table 6: Electrical Characteristics of the digital inputs (12)Table 7: Electrical Characteristics of Digital Output (13)Table 8: Definition of Device status and LED (16)For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: Figure 1.Appearance of MT-100 (8)Figure 2.SIM Card Installation (10)Figure 3.Typical Power Connection (11)Figure 4.Typical Ignition Detection (12)Figure 5.Typical Digital Input Connection (13)Figure 6.Typical Analog Input Connection (13)Figure 7.Typical Connection with Siren (14)Figure 8.Typical Connection with Relay (14)Figure 9.MT-100 LED on the Case (15)For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: 1. IntroductionThe MT-100 is a powerful GPS locator designed for vehicle or asset tracking. It has superior receiver sensitivity, fast TTFF (Time to First Fix) and supports Quad-Band GSM frequencies 850/900/1800/1900, its location can be monitored in real time or be periodically tracked by a backend server or other specified terminals. The MT-100 has multiple input/output interfaces that can be used for monitoring or controlling external devices. Based on the integrated @Track protocol, the MT-100 can communicate with a backend server through the GPRS/GSM network to transfer reports of Emergency, geo-fence boundary crossings, low backup battery or scheduled GPS position as well as many other useful functions. Users can also use MT-100 to monitor the status of a vehicle and control the vehicle by its external relay output. System Integrators can easily setup their tracking systems based on the full-featured @Track protocol.This device complies with part 15B, part 22 and part 24 of the FCC rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference (2) this device must accept any interference, including interference that may cause undesired operation.1.1.Reference1.2.Terms and AbbreviationsFor More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and price2. Product Overview2.1.AppearanceFigure 1. Appearance of MT-1002.2.Parts ListPictureFor More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and price2.3.Interface DefinitionThere are 8 wires on MT-100 User Cable which contain the connection for power, ignition input, digital input, analog input, siren output, cut output etc. The user cable’s definition is shown in following table.For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USA Phone: +1.650.692.8100 – Email: *************************– Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and priceFor More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USAPhone: +1.650.692.8100 – Email: ************************* – Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and price 3. Getting Started3.1. Installing a SIM CardStep 1: Remove the cover by screwdriver.Step 2: Make sure the contact area is facing down, insert the SIM into the slot. Step 3: Install the SIM card cover.Figure 2. SIM Card Installation3.2. Switch the set on/offThere are two methods to Power on MT-100: - MT-100 external power turned on.- Connect MT-100 to PC with user cable.When the external power or USB cable power is removed, MT-100 will switch to internal backup battery and keep on running. When internal backup battery is exhausted, MT-100 will give a report and then turn off.Note:1-External power and User USB power can be present at same time.2-For USB port current limitation, when configuring MT-100 by user cable, please let backup battery onusing.For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USAPhone: +1.650.692.8100 – Email: ************************* – Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and price There is one method to turn off MT-100.- Remove the external power and USB power. - Press the reset key.Note:MT-100 PWR LED will off.3.3. Reset KeyThere is a reset key behind the SIM card cover. If the power wire is connected to vehicle power, the system will reboot when the key is pressed; if the system is powered by the backup battery and the power wire is not be connected to vehicle power, the system will shutdown when the key is pressed. Note:When you finished the firmware upgrade, please press the reset key to reboot the system before configuring the terminal.3.4. USB connectorThere is a USB connector on MT-100 which is beside the SIM card. With the USB connector and the DATA_CABLE_M, user can configure the system or download firmware. As long as the DATA_CABLE_M is plugged in, the system will boot.3.5. Power ConnectionThe red wire is power wire and the black wire is ground wire. The input voltage range for this device is from 8V to 32V. The device is designed to be installed in vehicles that operate on 12V or 24V systems without the need for external transformers.Figure 3. Typical Power ConnectionFor More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USAPhone: +1.650.692.8100 – Email: ************************* – Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and price 3.6. Ignition DetectionInactive0V to 3V or OpenFigure 4. Typical Ignition DetectionThe white wire is used for ignition detection. It is strongly recommended to connect this wire to ignition key “RUN” position as shown up.An alternative to connecting to the ignition switch is to find a non-permanent power source that is only available when the vehicle is running. For example the power source for the FM radio.Ignition signal can be configured to start transmitting information to backend server when ignition is on; and enter power saving mode when ignition is off.3.7. Digital InputThere is a general purpose digital input which is the blue wire on MT-100 User Cable, and it is a negative trigger. The digital input is recommended to support panic button function.The following diagram shows the recommended connection of the digital input.For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USAPhone: +1.650.692.8100 – Email: ************************* – Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and priceFigure 5.Typical Digital Input Connection3.8. Analog InputThere is an analog input which is the green wire on MT-100 User Cable, and the analog input voltage range is from 0 to 32V. The following diagram shows the recommended connection.Figure 6. Typical Analog Input Connection3.9. Digital OutputThere is an output which is the brown wire on MT-100 User Cable. This output is used to drive a siren and the maximum drive current is 750mA. When the siren output is enabled, the voltage on the siren output is determined by the system power level, if the system power is 12V, then the siren output voltage is 12V.For More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USAPhone: +1.650.692.8100 – Email: ************************* – Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and priceFigure 7. Typical Connection with Siren3.10. Relay OutputThere is a built-in cut relay on MT-100, and it is a NC (Normal Close) type relay which maximum switching voltage is 12VDC and maximum continuous current is 20A. On MT-100 user cable one 18AWG yellow wire is connected to the relay NC contact and the other 18AWG yellow wire is connected to the relay COM contact. In certain instances the two wires will be connected together. Note:1: The relay output can be latched by the software, so even if the MT-100 is restart or power down in some cases, the relay output will not change. To use the latch function the main power and backup battery should be connected. Otherwise the relay will be always in normal close status.2: The relay works only with 12V main power. Use it when the main power is 24V may result in damaging.3: Many modern relays come with a fly-back diode pre-installed internal to the relay itself. If the relay has this diode, ensure the relay polarity is properly connected. If this diode is not internal, it should be added externally. A common diode such as a 1N4004 will work in most circumstances.Figure 8. Typical Connection with RelayFor More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USAPhone: +1.650.692.8100 – Email: ************************* – Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and price 3.11. Device Status LEDFigure 9.MT-100 LED on the CaseFor More Information: Please contact TrackingTheWorld, 1633 Bayshore Highway, Suite 390, Burlingame, CA. 94010, USAPhone: +1.650.692.8100 – Email: ************************* – Website: Copyright © TrackingTheWorld. All rights reserved. Information in this publication supersedes that in all previously published material. Specification and price Table 8: Definition of Device status and LEDNote:1 - GSM LED cannot be configured.2 - GPS LED and PWR LED can be configured to turn off after a period of time using the configuration tool3 - Fast flashing is about 60ms ON/ 780ms OFF4 - Slow flashing is about 60ms ON/ 1940ms OFF。

年Q1完成全系统持还原定，出货量较少可向后推寻找，C-MATE 汽车CT参数列表的ECU单元一致详细见：sheet《大众全系统列表》测系统、空调系统、电控驾驶员门、电控副驾驶员门、电控左后门、电控右后门、大灯范围系统、防盗系统、中心模块、收音机、导航、一般在2000-3000条）条液压转向、气囊、车身、进入与启动、电源控制、天窗、司机车门、网关、大灯、仪表板、空调等详细见：sheet《丰田全系统列表》（OBD：一般在2000-3000条）条（OBD：一般在、气囊、车身、转向助力、胎压、四轮驱动、电子驻车、智能钥匙、防盗等死、气囊、空调、助力转向、智能钥匙、胎压、车身、大灯、门窗等详细见：sheet《通用全系统列表》（OBD：一般在曲轴凸轮轴机构、配气机构、燃油供给系统 、进气系统、 排气系统、氧传感器、点火系统、冷却系统、启动系统、变速器控制、混合动暂时OBD：曲轴凸轮轴机构、配气机构、燃油供给系统 、进气系统、 排气系统、氧传感器、点火系统、冷却系统、启动系统、变速器控制、混合动力控制底盘系统ABS及TCS、 润滑系统、车身气囊系统、数据总线、其它2000-3000条）所有车型所有车型支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持OBD：支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持支持适配奔驰对应年份下的所有车型适配保时捷对应年份下的所有车型适配路虎对应年份下的所有车型适配宝马对应年份下的所有车型适配捷豹对应年份下的所有车型的所有车型所有车型所有车型。

基于光纤延迟线的时间抖动测量系统余泓漪，吴言，田昊晨，宋有建*，胡明列（天津大学精密仪器与光电子工程学院光电信息技术教育部重点实验室,天津300072）摘要：对飞秒激光器时间抖动的准确测量是推动其高精度应用的重要前提。

为实现时间抖动的高精度、无参考测量，设计并搭建了一套基于光纤延迟线的测量系统。

基于非对称迈克尔逊干涉仪的结构，在其中一臂引入一段长光纤延迟线鉴别时间误差，提高时间抖动测量精度。

测量了一台实验室自制的重复频率为82MHz的锁模光纤激光器的时间抖动功率谱，其在100Hz~10kHz的积分范围内RMS时间抖动为10.1fs。

关键词：飞秒激光器；时间抖动；光纤延迟线中图分类号：TB96文献标识码：A文章编号：1674-5795（2022）05-0103-05Timing jitter measurement system based on fiber delay lineYU Hongyi,WU Yan,TIAN Haochen,SONG Youjian*,HU Minglie(Key Laboratory of Opto-electronic Information Science and Technology of Ministry of Education, School of Precision Instruments and Opto-electronics Engineering,Tianjin University,Tianjin300072,China) Abstract:Accurate measurement of the timing jitter of femtosecond laser is an important prerequisite to promote its high-precision application.In order to achieve high-precision and no-reference measurement of timing jitter,a measurement system based on fiber delay line was designed and built.Based on the structure of asymmetric Michelson interferometer,a long fiber delay line is added into one arm to identify the time error and improve the measurement accuracy of timing jitter.The timing jitter power spectrum of a lab-made mode-locked fiber laser with a repetition rate of82MHz was measured,and the RMS timing jitter was10.1fs in the inte‐grated range of100Hz to10kHz.Key words:femtosecond laser;timing jitter;fiber delay line0引言飞秒激光器［1-3］的输出脉冲序列具有极高的分辨力和极低的时间抖动，其量子极限的时间抖动可达低于1fs的水平［4］。